Therapeutic and diagnostic methods for il-33-mediated disorders

ABSTRACT

The invention relates to methods of treating a patient suffering from an IL-33-mediated disorder, such as asthma, comprising administering to the patient an IL-33 axis binding antagonist based on the genotype of the /L1RL1gene, the genotype of a polymorphism in genomic vicinity to the IL-33 gene, the expression level of periostin or the expression level of soluble ST2. The invention further relates to methods of determining whether a patient is at increased risk of an IL-33-mediated disorder, as well as methods of determining whether a patient suffering from such a disorder is likely to respond to a treatment comprising an IL-33 axis binding antagonist, based on the genotype of the /L1RL1gene the genotype of a polymorphism in genomic vicinity to the IL-33 gene, the expression level of periostin or the expression level of soluble ST2.

FIELD OF THE INVENTION

The present invention is directed to methods of treating patients suffering from interleukin-33 (IL-33)-mediated disorders and methods of determining whether a patient is at increased risk for an IL-33-mediated disorder.

BACKGROUND

Interleukin-33 (IL-33) is a member of the interleukin-1 (IL-1) cytokine family that is encoded by the IL33 gene, and is constitutively expressed in structural cells, such as smooth muscle, epithelial, and endothelial cells. IL-33 can be induced by inflammatory factors in macrophages and dendritic cells. Cellular stress caused by environmental triggers, such as allergens, toxins, and pathogens, can lead to IL-33 release. Bioavailable IL-33 associates with a heterodimeric IL-33 receptor complex composed of suppression of tumorigenicity 2 (ST2) protein and interleukin-1 receptor accessory protein (IL-1 RAcP) to activate the AP-1 and NF-kB pathways through the adaptor protein myeloid differentiation primary response 88 (MyD88) and possibly MyD88-adapter-like (Mal) protein. IL-33 stimulates a number of cell types, including innate type II (ILC2) cells, mast cells, basophils, eosinophils, and dendritic cells, to promote Type 2 immunity.

The IL-33 pathway has been suggested to be involved in various diseases, including allergy-related diseases, for which there remains a need to develop improved methods for identifying patient populations best suited to therapy options.

SUMMARY

The present invention is directed to methods of treating patients suffering from interleukin-33 (IL-33)-mediated disorders and methods of determining whether a patient is at increased risk for an IL-33-mediated disorder.

In one aspect, the invention features a method of treating a patient suffering from an interleukin-33 (IL-33)-mediated disorder, the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist, wherein the genotype of the patient has been determined to comprise a G allele at polymorphism rs4988956 (SEQ ID NO: 1) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1).

In another aspect, the invention features a method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs4988956 (SEQ ID NO: 1) or at a polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a G allele at polymorphism rs4988956 (SEQ ID NO: 1) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1). In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining in a sample derived from a patient suffering from an IL-33-mediated disorder the genotype at polymorphism rs4988956 (SEQ ID NO: 1) or at a polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1); and (b) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the genotype, wherein the presence of each G allele at polymorphism rs4988956 (SEQ ID NO: 1) or each equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1) indicates that the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist. In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In some embodiments of any one of the above aspects, the method further comprises determining the level of periostin in a sample derived from the patient. In some embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or below a reference level of periostin. In other embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or above a reference level of periostin.

In some embodiments of any one of the above aspects, the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1) has a D′ value greater than or equal to 0.6 to polymorphism rs4988956 (SEQ ID NO: 1). In some embodiments, the D′ value is greater than or equal to 0.8. In some embodiments, the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1) is a polymorphism in Table 3. In some embodiments, the equivalent allele is the minor allele of the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1). In some embodiments, the equivalent allele is the major allele of the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1).

In another aspect, the invention features a method of treating a patient suffering from an IL-33-mediated disorder, the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist, wherein the genotype of the patient has been determined to comprise an A allele at polymorphism rs10204137 (SEQ ID NO: 2) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2).

In another aspect, the invention features a method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs10204137 (SEQ ID NO: 2) or at a polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises an A allele at polymorphism rs10204137 (SEQ ID NO: 2) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2). In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining in a sample derived from a patient suffering from an IL-33-mediated disorder the genotype at polymorphism rs10204137 (SEQ ID NO: 2) or at a polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2); and (b) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the genotype, wherein the presence of each A allele at polymorphism rs10204137 (SEQ ID NO: 2) or each equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2) indicates that the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist. In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In some embodiments of any one of the above aspects, the method further comprises determining the level of periostin in a sample derived from the patient. In some embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or below a reference level of periostin. In other embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or above a reference level of periostin.

In some embodiments of any one of the above aspects, the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2) has a D′ value greater than or equal to 0.6 to polymorphism rs10204137 (SEQ ID NO: 2). In some embodiments, the D′ value is greater than or equal to 0.8. In some embodiments, the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2) is a polymorphism in Table 3. In some embodiments, the equivalent allele is the minor allele of the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2). In other embodiments, the equivalent allele is the major allele of the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2).

In another aspect, the invention features a method of treating a patient suffering from an IL-33-mediated disorder, the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist, wherein the genotype of the patient has been determined to comprise a C allele at polymorphism rs10192036 (SEQ ID NO: 3) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3).

In another aspect, the invention features a method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs10192036 (SEQ ID NO: 3) or at a polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a C allele at polymorphism rs10192036 (SEQ ID NO: 3) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3). In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining in a sample derived from a patient suffering from an IL-33-mediated disorder the genotype at polymorphism rs10192036 (SEQ ID NO: 3) or at a polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3); and (b) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the genotype, wherein the presence of each C allele at polymorphism rs10192036 (SEQ ID NO: 3) or each equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3) indicates that the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist. In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In some embodiments of any one of the above aspects, the method further comprises determining the level of periostin in a sample derived from the patient. In some embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or below a reference level of periostin. In other embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or above a reference level of periostin.

In some embodiments of any one of the above aspects, the polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3) has a D′ value greater than or equal to 0.6 to polymorphism rs10192036 (SEQ ID NO: 3). In some embodiments, the D′ value is greater than or equal to 0.8. In some embodiments, the polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3) is a polymorphism in Table 3. In some embodiments, the equivalent allele is the minor allele of the polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3). In other embodiments, the equivalent allele is the major allele of the polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3).

In another aspect, the invention features a method of treating a patient suffering from an IL-33-mediated disorder, the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist, wherein the genotype of the patient has been determined to comprise a C allele at polymorphism rs10192157 (SEQ ID NO: 4) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4).

In another aspect, the invention features a method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs10192157 (SEQ ID NO: 4) or ata polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a C allele at polymorphism rs10192157 (SEQ ID NO: 4) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4). In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining in a sample derived from a patient suffering from an IL-33-mediated disorder the genotype at polymorphism rs10192157 (SEQ ID NO: 4) or at a polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4); and (b) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the genotype, wherein the presence of each C allele at polymorphism rs10192157 (SEQ ID NO: 4) or each equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4) indicates that the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist. In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In some embodiments of any one of the above aspects, the method further comprises determining the level of periostin in a sample derived from the patient. In some embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or below a reference level of periostin. In other embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or above a reference level of periostin.

In some embodiments of any one of the above aspects, the polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4) has a D′ value greater than or equal to 0.6 to polymorphism rs10192157 (SEQ ID NO: 4). In some embodiments, the D′ value is greater than or equal to 0.8. In some embodiments, the polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4) is a polymorphism in Table 3. In some embodiments, the equivalent allele is the minor allele of the polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4). In other embodiments, the equivalent allele is the major allele of the polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4).

In another aspect, the invention features a method of treating a patient suffering from an IL-33-mediated disorder, the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist, wherein the genotype of the patient has been determined to comprise a T allele at polymorphism rs10206753 (SEQ ID NO: 5) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5).

In another aspect, the invention features a method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs10206753 (SEQ ID NO: 5) or at a polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a T allele at polymorphism rs10206753 (SEQ ID NO: 5) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5). In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining in a sample derived from a patient suffering from an IL-33-mediated disorder the genotype at polymorphism rs10206753 (SEQ ID NO: 5) or at a polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5); and (b) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the genotype, wherein the presence of each T allele at polymorphism rs10206753 (SEQ ID NO: 5) or each equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5) indicates that the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist. In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In some embodiments of any one of the above aspects, the method further comprises determining the level of periostin in a sample derived from the patient. In some embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or below a reference level of periostin. In other embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or above a reference level of periostin.

In some embodiments of any one of the above aspects, the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5) has a D′ value greater than or equal to 0.6 to polymorphism rs10206753 (SEQ ID NO: 5). In some embodiments, the D′ value is greater than or equal to 0.8. In some embodiments, the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5) is a polymorphism in Table 3. In some embodiments, the equivalent allele is the minor allele of the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5). In other embodiments, the equivalent allele is the major allele of the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5).

In another aspect, the invention features a method of treating a patient suffering from an IL-33-mediated disorder, the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist, wherein the genotype of the patient has been determined to comprise a T allele at polymorphism rs4742165 (SEQ ID NO: 6) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features a method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs4742165 (SEQ ID NO: 6) or at a polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a T allele at polymorphism rs4742165 (SEQ ID NO: 6) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6). In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining in a sample derived from a patient suffering from an IL-33-mediated disorder the genotype at polymorphism rs4742165 (SEQ ID NO: 6) or at a polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6); and (b) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the genotype, wherein the presence of each T allele at polymorphism rs4742165 (SEQ ID NO: 6) or each equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6) indicates that the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist. In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In some embodiments of any one of the above aspects, the polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6) has a D′ value greater than or equal to 0.6 to polymorphism rs4742165 (SEQ ID NO: 6). In some embodiments, the D′ value is greater than or equal to 0.8. In some embodiments, the polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6) is a polymorphism in Table 4. In some embodiments, the equivalent allele is the minor allele of the polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6). In other embodiments, the equivalent allele is the major allele of the polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features a method of treating a patient suffering from an IL-33-mediated disorder, the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist, wherein the genotype of the patient has been determined to comprise two or more of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features a method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at two or more polymorphisms selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), rs4742165 (SEQ ID NO: 6), and a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if: (a) the genotype of the patient comprises a G allele at polymorphism rs4988956 (SEQ ID NO: 1); (b) the genotype of the patient comprises an A allele at polymorphism rs10204137 (SEQ ID NO: 2); (c) the genotype of the patient comprises a C allele at polymorphism rs10192036 (SEQ ID NO: 3); (d) the genotype of the patient comprises a C allele at polymorphism rs10192157 (SEQ ID NO: 4); (e) the genotype of the patient comprises a T allele at polymorphism rs10206753 (SEQ ID NO: 5) (f) the genotype of the patient comprises a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or (g) the genotype of the patient comprises an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6). In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining in a sample derived from a patient suffering from an IL-33-mediated disorder the genotype at two or more polymorphisms selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), rs4742165 (SEQ ID NO: 6), and a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); and (b) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the genotype, wherein the presence of: (i) each G allele at polymorphism rs4988956 (SEQ ID NO: 1); (ii) each A allele at polymorphism rs10204137 (SEQ ID NO: 2); (iii) each C allele at polymorphism rs10192036 (SEQ ID NO: 3); (iv) each C allele at polymorphism rs10192157 (SEQ ID NO: 4); (v) each T allele at polymorphism rs10206753 (SEQ ID NO: 5); (vi) each T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or (vii) each equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6) indicates that the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist. In some embodiments of this aspect, the patient has been determined to comprise a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and an A allele at polymorphism rs10204137 (SEQ ID NO: 2). In some embodiments of this aspect, the genotype of the patient has been determined to comprise a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a C allele at polymorphism rs10192036 (SEQ ID NO: 3). In some embodiments of this aspect, the genotype of the patient has been determined to further comprise a C allele at polymorphism rs10192157 (SEQ ID NO: 4) ora T allele at polymorphism rs10206753 (SEQ ID NO: 5). In some embodiments of this aspect, the genotype of the patient has been determined to further comprise a C allele at polymorphism rs10192157 (SEQ ID NO: 4) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5). In some embodiments of this aspect, the genotype of the patient has been determined to comprise: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); and a T allele at polymorphism rs4742165 (SEQ ID NO: 6). In some embodiments, the method further comprises administering an IL-33 axis binding antagonist to the patient.

In some embodiments of any one of the above aspects, the method further comprises determining the level of periostin in a sample derived from the patient. In some embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or below a reference level of periostin. In other embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or above a reference level of periostin.

In some embodiments of any one of the above aspects, the polymorphism in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6) has a D′ value greater than or equal to 0.6 to the selected polymorphism. In some embodiments, the D′ value is greater than or equal to 0.8. In some embodiments, the polymorphism in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6) is a polymorphism in Table 3 or Table 4. In some embodiments, the equivalent allele is the minor allele of the polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6). In other embodiments, the equivalent allele is the major allele of the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5).

In another aspect, the invention features a method of selecting a therapy for a patient having an IL-33-mediated disorder, the method comprising: (a) determining the level of periostin in a sample derived from the patient; (b) comparing the level of periostin in the sample derived from the patient to a reference level of periostin; and (c) selecting a therapy comprising an IL-33 axis binding antagonist if the level of periostin in the sample is at or below the reference level. In some embodiments, the method further comprises administering a therapy comprising an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of treating a patient suffering from an IL-33-mediated disorder, the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist, wherein the level of soluble ST2 (sST2) in a sample derived from the patient has been determined to be at or above a reference level of sST2.

In another aspect, the invention features a method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising: (a) determining the level of sST2 in a sample derived from the patient; and (b) comparing the level of sST2 in the sample derived from the patient to a reference level of sST2, wherein the patient is at an increased risk of an IL-33-mediated disorder if the level of sST2 in the sample derived from the patient is at or above the reference level. In some embodiments, the method further comprises administering a therapy comprising an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of selecting a therapy for a patient having an IL-33-mediated disorder, the method comprising: (a) determining the level of sST2 in a sample derived from the patient; (b) comparing the level of sST2 in the sample derived from the patient to a reference level of sST2; and (c) selecting a therapy comprising an IL-33 axis binding antagonist if the level of sST2 in the sample is at or above the reference level. In some embodiments, the method further comprises administering a therapy comprising an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining the level of sST2 in a sample derived from the patient; (b) comparing the level of sST2 in the sample derived from the patient to a reference level of sST2; and (c) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the level of sST2 in the sample derived from the patient, wherein the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist if the level of sST2 in the sample is at or above the reference level. In some embodiments, the method further comprises administering a therapy comprising an IL-33 axis binding antagonist to the patient.

In another aspect, the invention features a method for assessing a treatment response of a patient treated with an IL-33 axis binding antagonist, the method comprising: (a) determining the level of sST2 in a sample derived from the patient at a time point during or after administration of the IL-33 axis binding antagonist; and (b) maintaining, adjusting, or stopping the treatment of the patient based on a comparison of the level of sST2 in the sample derived from the patient with a reference level of sST2, wherein a change in the level of sST2 in the sample derived from the patient compared to the reference level is indicative of a response to treatment with the IL-33 axis binding antagonist. In some embodiments of this aspect, the change is an increase in the level of sST2 and treatment is maintained. In other embodiments of this aspect, the change is a decrease in the level of sST2 and treatment is stopped.

In another aspect, the invention features a method for monitoring the response of a patient treated with a IL-33 axis binding antagonist, the method comprising: (a) determining the level of sST2 in a sample derived from the patient at a time point during or after administration of the IL-33 axis binding antagonist; and (b) comparing the level of sST2 in the sample derived from the patient with a reference level of sST2, thereby monitoring the response in the patient undergoing treatment with the IL-33 axis binding antagonist.

In some embodiments of any one of the above aspects, the method further comprises determining the level of periostin in a sample derived from the patient. In some embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or below a reference level of periostin. In other embodiments, the patient has an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist if the level of periostin in the sample is at or above a reference level of periostin.

In some embodiments of any one of the above aspects, the level of sST2 is a level of sST2 protein. In some embodiments, the sample derived from the patient is a whole blood sample, a serum sample, a plasma sample, or a combination thereof. In some embodiments, the sample derived from the patient is a serum sample. In some embodiments, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs4742165 (SEQ ID NO: 6). In some embodiments, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs3771166 (SEQ ID NO: 8). In some embodiments, the group of individuals is suffering from asthma. In some embodiments, the reference level of sST2 is a median level. In some embodiments, the group of individuals is a group of female individuals and the patient is female. In some embodiments, the group of individuals is a group of male individuals and the patient is male. In some embodiments, the reference level is determined in an individual at an earlier timepoint, e.g., before treatment with an IL-33 axis binding antagonist or at an earlier timepoint during treatment with an IL-33 axis binding antagonist.

In some embodiments of any one of the above aspects, the IL-33 axis binding antagonist is administered in combination with a tryptase-beta binding antagonist, a chemoattractant receptor-homologous molecule expressed on Th2 cells (CRTH2) binding antagonist, an interleukin-13 (IL-13) binding antagonist, an interleukin-17 (IL-17) binding antagonist, a JAK1 antagonist, and/or an interleukin-5 (IL-5) binding antagonist. In some embodiments, the IL-33 axis binding antagonist is an IL-33 binding antagonist, an ST2 binding antagonist, or an IL-1 RAcP binding antagonist. In some embodiments, (a) the IL-33 binding antagonist is an anti-IL33 antibody or antigen-binding fragment thereof; (b) the ST2 binding antagonist is an ST2-Fc protein, an anti-ST2 antibody, or antigen-binding fragment thereof; or (c) the IL-1 RAcP binding antagonist is an anti-IL-1 RAcP antibody.

In some embodiments of any one of the above aspects, the IL-33-mediated disorder is selected from the group consisting of an inflammatory condition, an immune disorder, a fibrotic disorder, an eosinophilic disorder, an infection, pain, a central nervous system disorder, a solid tumor, and an ophthalmologic disorder. In some embodiments, the inflammatory condition is selected from the group consisting of asthma, sepsis, septic shock, atopic dermatitis, allergic rhinitis, rheumatoid arthritis, and chronic obstructive pulmonary disease (COPD). In some embodiments, the immune disorder is selected from the group consisting of asthma, rheumatoid arthritis, allergy, anaphylaxis, anaphylactic shock, allergic rhinitis, psoriasis, inflammatory bowel disease (IBD), Crohn's disease, diabetes, and liver disease. In some embodiments, the fibrotic disease is idiopathic pulmonary fibrosis (IPF). In some embodiments, the eosinophilic disorder is an eosinophil-associated gastrointestinal disorder (EGID). In some embodiments, the EGID is eosinophilic esophagitis. In some embodiments, the infection is a helminth infection, a protozoan infection, or a viral infection. In some embodiments, the protozoan infection is a Leishmania major infection. In some embodiments, the viral infection is a respiratory syncytial virus (RSV) infection or an influenza infection. In some embodiments, the pain is inflammatory pain. In some embodiments, the central nervous system disorder is Alzheimer's disease. In some embodiments, the solid tumor is selected from the group consisting of breast tumor, colon tumor, prostate tumor, lung tumor, kidney tumor, liver tumor, pancreas tumor, stomach tumor, intestinal tumor, brain tumor, bone tumor, and skin tumor. In some embodiments, the ophthalmologic disorder is age-related macular degeneration (AMD) or retinopathy of the eye.

In some embodiments of any one of the above aspects, the reference level of periostin is between about 23 ng/ml and about 50 ng/ml.

In some embodiments of any one of the above aspects, the sample derived from the patient is a whole blood sample, a serum sample, a plasma sample, or a combination thereof.

In another aspect, the invention features an IL-33 axis binding antagonist for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to comprise a G allele at polymorphism rs4988956 (SEQ ID NO: 1) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1).

In another aspect, the invention features a use of an effective amount of an IL-33 axis binding antagonist in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a G allele at polymorphism rs4988956 (SEQ ID NO: 1) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1).

In another aspect, the invention features a composition comprising an effective amount of an IL-33 axis binding antagonist for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a G allele at polymorphism rs4988956 (SEQ ID NO: 1) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1).

In another aspect, the invention features an IL-33 axis binding antagonist for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to comprise an A allele at polymorphism rs10204137 (SEQ ID NO: 2) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2).

In another aspect, the invention features a use of an effective amount of an IL-33 axis binding antagonist in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise an A allele at polymorphism rs10204137 (SEQ ID NO: 2) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2).

In another aspect, the invention features a composition comprising an effective amount of an IL-33 axis binding antagonist for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise an A allele at polymorphism rs10204137 (SEQ ID NO: 2) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2).

In another aspect, the invention features an IL-33 axis binding antagonist for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to comprise a C allele at polymorphism rs10192036 (SEQ ID NO: 3) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3).

In another aspect, the invention features a use of an effective amount of an IL-33 axis binding antagonist in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a C allele at polymorphism rs10192036 (SEQ ID NO: 3) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3).

In another aspect, the invention features a composition comprising an effective amount of an IL-33 axis binding antagonist for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a C allele at polymorphism rs10192036 (SEQ ID NO: 3) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3).

In another aspect, the invention features an IL-33 axis binding antagonist for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to comprise a C allele at polymorphism rs10192157 (SEQ ID NO: 4) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4).

In another aspect, the invention features a use of an effective amount of an IL-33 axis binding antagonist in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a C allele at polymorphism rs10192157 (SEQ ID NO: 4) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4).

In another aspect, the invention features a composition comprising an effective amount of an IL-33 axis binding antagonist for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a C allele at polymorphism rs10192157 (SEQ ID NO: 4) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4).

In another aspect, the invention features an IL-33 axis binding antagonist for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to comprise a T allele at polymorphism rs10206753 (SEQ ID NO: 5) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5).

In another aspect, the invention features a use of an effective amount of an IL-33 axis binding antagonist in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a T allele at polymorphism rs10206753 (SEQ ID NO: 5) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5).

In another aspect, the invention features a composition comprising an effective amount of an IL-33 axis binding antagonist for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a T allele at polymorphism rs10206753 (SEQ ID NO: 5) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5).

In another aspect, the invention features an IL-33 axis binding antagonist for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to comprise a T allele at polymorphism rs4742165 (SEQ ID NO: 6) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features a use of an effective amount of an IL-33 axis binding antagonist in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a T allele at polymorphism rs4742165 (SEQ ID NO: 6) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features a composition comprising an effective amount of an IL-33 axis binding antagonist for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise a T allele at polymorphism rs4742165 (SEQ ID NO: 6) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features an IL-33 axis binding antagonist for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to comprise two or more of the following alleles: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features a use of an effective amount of an IL-33 axis binding antagonist in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise two or more of the following alleles: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features a composition comprising an effective amount of an IL-33 axis binding antagonist for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise two or more of the following alleles: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In another aspect, the invention features an IL-33 axis binding antagonist for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to have a level of sST2 in a sample derived from the patient at or above a reference level.

In another aspect, the invention features a use of an effective amount of an IL-33 axis binding antagonist in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to have a level of sST2 in a sample derived from the patient at or above a reference level.

In another aspect, the invention features a composition comprising an effective amount of an IL-33 axis binding antagonist for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to have a level of sST2 in a sample derived from the patient at or above a reference level.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1A shows a schematic representation of the interleukin-33 (IL-33) receptor complex. Red lines indicate the location of the indicated protective ST2 variants. MAPKK, Mitogen activated protein kinase kinase.

FIG. 1B is a rendering of the crystal structure of the TLR10 Toll/Interleukin-1 receptor (TIR) domain showing the mapped locations of the A433T and Q501R variants of ST2.

FIGS. 1C and 1D are graphs showing the results of reporter assay experiments to determine the IL-33 response of the common ST2 variant or protective ST2 variant (A433T Q501R T549I L551S), HEK-BLUE™ cells expressing the indicated variant were stimulated with increasing concentrations of recombinant human IL-33 (FIG. 10) or IL-1β (FIG. 1D) for 20 h. Cytokine activity was measured by induction of the NF-kB/AP-1 secreted alkaline phosphatase (SEAP) reporter gene. Graphs show mean±SEM of 3 single clone cell lines. * indicates p<0.05. Data are representative of three independent experiments. The half-maximal effective concentration (EC50) of IL-33 (FIG. 10) or IL-1β (FIG. 1D) for the indicated variant is shown in the table.

FIGS. 2A and 2B are graphs showing the results of reporter assay experiments to determine the IL-33 response of the common variant or protective ST2 variants. Batch clones of HEK-BLUE™ cells expressing the indicated ST2 variant were stimulated with increasing concentrations of human recombinant IL-33 (FIG. 2A) or IL-1β (FIG. 2B) for 20 h. Cytokine activity was measured by induction of the NF-kB/AP-1 SEAP reporter gene. Graphs show mean±SD of triplicates. Data are representative of three independent experiments. The table shows the EC50 of IL-33 (FIG. 2A) or IL-1β (FIG. 2B) for the indicated variant.

FIG. 3A are histograms showing the results of flow cytometry experiments comparing the surface expression levels of the indicated IL1RL1 variants in HEK-BLUE™ cells.

FIG. 3B is a histogram showing the results of flow cytometry experiments comparing IL-1RAcP surface expression levels in HEK-BLUE™ cells expressing the indicated IL1RL1 variants.

FIG. 3C is a graph showing the mean fluorescence intensity (MFI) of ST2 surface expression from the graphs shown in FIG. 3A.

FIG. 3D are graphs showing the results of quantitative reverse transcription polymerase chain reaction (RT-PCR) measurements of IL1RL1 (left panel) and IL1RAcP (right panel) expression. mRNA levels are presented relative to expression of the housekeeping gene RPL19 (encoding the ribosomal protein L19).

FIG. 4 is a graph showing interleukin-8 (IL-8) secretion levels of purified blood eosinophils obtained from human donors carrying either the protective or common IL1RL1 variants treated with the indicated concentration of purified IL-33, as assessed by an enzyme-linked immunosorbent assay (ELISA).

FIG. 5A is a graph showing quantitative RT-PCR of sST2 mRNA levels from purified blood eosinophils and basophils from human donors carrying either the protective or common IL1RL1 variants, as assessed by ELISA.

FIG. 5B is a graph showing plasma sST2 levels from human donors carrying either the protective or common IL1RL1 variants, as assessed by ELISA. Plots display mean±SEM of 3 single clones or 4 individual donors per group. * indicates p<0.05 as determined by paired t test.

FIG. 6 is a table showing the association of protective IL1RL1 variants with periostin levels. CHR, chromosome; P, p value; OR, odds ratio; and MAF, minor allele frequency.

FIG. 7A is a box plot graph showing observed distributions of log 2-transformed asthmatic serum soluble ST2 (sST2) by genotype at rs3771166 and sex (female ♀, male ♂).

FIG. 7B is a box plot graph showing observed distributions of log 2-transformed asthmatic serum soluble ST2 (sST2) by genotype at rs4742165 and sex (female ♀, male ♂).

FIG. 7C is a graph showing the least squares mean (Ismean) and standard error of log 2-transformed asthmatic sST2 levels with rs4742165 (x-axis) and rs3771166 genotypes (series). Right axes correspond to untransformed values of sST2 levels (ng/mL).

FIG. 8 is a series of graphs showing pairwise correlation of baseline biomarker levels. Pairwise analyses are represented for baseline biomarker levels. Lower panels are scatterplots and upper panels are Spearman's p estimates and counts of paired data. The x and y axes are defined by the row and column intersection with the diagonal (biomarker and units) and plot margins (scales). A line represents a LOWESS fit of the data.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION I. Definitions

The term “administering” means the administration of a pharmaceutical composition (e.g., comprising an interleukin-33 (IL-33) axis binding antagonist) to a patient (e.g., a patient suffering from asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)).

“Antagonists” as used herein refer to compounds or agents which inhibit or reduce the biological activity of the molecule to which they bind. Antagonists include antibodies, synthetic or native-sequence peptides, immunoadhesins, and small-molecule antagonists that bind to, for example, an IL-33 axis protein, optionally conjugated with or fused to another molecule. A “blocking” antibody or an “antagonist” antibody is one which inhibits or reduces biological activity of the antigen it binds.

The term “asthma” refers herein to a disorder characterized by variable and recurring symptoms, reversible airflow obstruction (e.g., by bronchodilator), and bronchial hyper-responsiveness, which may or may not be associated with underlying inflammation. Asthma may therefore be inflammatory/inflamed asthma or non-inflammatory/non-inflamed asthma. Examples of asthma include allergic asthma, exercise-induced asthma, aspirin sensitive/exacerbated asthma, atopic asthma, severe asthma, mild asthma, moderate to severe asthma, corticosteroid naïve asthma, chronic asthma, corticosteroid resistant asthma, corticosteroid refractory asthma, newly diagnosed and untreated asthma, asthma due to smoking, asthma uncontrolled on corticosteroids, and other asthmas as mentioned in Bousquet et al. (J. Allergy Clin. Immunol. 126(5): 926-938, 2010).

The terms “biomarker” and “marker” are used interchangeably herein to refer to a DNA, RNA, protein, carbohydrate, or glycolipid-based molecular marker, the expression or presence of which in a subject's or patient's sample can be detected by standard methods (or methods disclosed herein) and is useful, for example, for identifying the risk profile of a subject for a disease or disorder and/or the likelihood of responsiveness or sensitivity of a mammalian subject to a treatment (e.g., a treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist)). Expression of such a biomarker may be determined to be higher or lower in a sample obtained from a patient that has an increased or decreased likelihood of being responsive to an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) than a reference level (including, e.g., the median expression level of the biomarker in samples from a group/population of patients (e.g., asthma patients); the level of the biomarker in samples from a group/population of control individuals (e.g., healthy individuals); or the level in a sample previously obtained from the individual at a prior time). In some embodiments, individuals having an expression level that is greater than or less than the reference expression level of at least one gene, such as periostin or ST2 (e.g., sST2), can also be identified as likely to respond to treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist).

A “disorder” or “disease” is any condition that would benefit from treatment or diagnosis (e.g., determination of risk for an IL-33-mediated disorder) with a method of the invention. This includes chronic and acute disorders or diseases including those pathological conditions which predispose the mammal to the disorder in question. Examples of disorders to be treated herein include IL-33-mediated disorders (e.g., asthma, allergic rhinitis, atopic dermatitis, and fibrosis (e.g., pulmonary fibrosis, e.g., idiopathic pulmonary fibrosis)).

The term “effective amount” refers to an amount of a drug effective to treat a disease or disorder in a subject or patient, such as a mammal, e.g., a human.

The term “genotype” refers to a description of the alleles of a gene contained in an individual or a sample. In the context of this invention, no distinction is made between the genotype of an individual and the genotype of a sample originating from the individual. Although typically a genotype is determined from samples of diploid cells, a genotype can be determined from a sample of haploid cells, such as a sperm cell.

The terms “interleukin 1 receptor-like 1 (IL1RL1)” and “ST2,” used interchangeably herein, refer to any native ST2 from any vertebrate source, including mammals such as primates (e.g., humans) and rodents (e.g., mice and rats), unless otherwise indicated. ST2 is also referred to in the art as DER4, T1, and FIT-1. The term encompasses “full-length,” unprocessed ST2, as well as any form of ST2 that results from processing in the cell. At least four isoforms of ST2 are known in the art, including soluble (sST2, also known as IL1RL1-a) and transmembrane (ST2L, also known as IL1RL1-b), which arise from differential mRNA expression from a dual promoter system, and ST2V and ST2LV, which arise from alternative splicing, as described below. The domain structure of ST2L includes three extracellular immunoglobulin-like C2 domains, a transmembrane domain, and a cytoplasmic Toll/Interleukin-1 receptor (TIR) domain. sST2 lacks the transmembrane and cytoplasmic domains contained within ST2L and includes a unique 9 amino acid (a.a.) C-terminal sequence (see, e.g., Kakkar et al. Nat. Rev. Drug Disc. 7: 827-840, 2008). sST2 can function as a decoy receptor to inhibit soluble IL-33. The term also encompasses naturally occurring variants of ST2, e.g., splice variants (e.g., ST2V, which lacks the third immunoglobulin motif and has a unique hydrophobic tail, and ST2LV, which lacks the transmembrane domain of ST2L) or allelic variants (e.g., variants that are protective against asthma risk or that confer asthma risk as described herein). The amino acid sequence of an exemplary human ST2 can be found, for example, under UniProtKB accession number Q01638. ST2 is a part of the IL-33 receptor along with the co-receptor protein IL-1 RAcP. Binding of IL-33 to ST2 and the co-receptor interleukin-1 receptor accessory protein (IL-1 RAcP) forms a 1:1:1 ternary signaling complex to promote downstream signal transduction, as depicted in FIG. 1A (see, e.g., Lingel et al. Structure 17(10): 1398-1410, 2009, and Liu et al. Proc. Natl. Acad. Sci. 110(37): 14918-14924, 2013).

The term “interleukin-33 (IL-33),” as used herein, refers to any native IL-33 from any vertebrate source, including mammals such as primates (e.g., humans) and rodents (e.g., mice and rats), unless otherwise indicated. IL-33 is also referred to in the art as nuclear factor of high endothelial venules (NF-HEV; see, e.g., Baekkevold et al. Am. J. Pathol. 163(1): 69-79, 2003), DVS27, C9orf26, and interleukin-1 family member 11 (IL-1F11). The term encompasses “full-length,” unprocessed IL-33, as well as any form of IL-33 that results from processing in the cell. Human full-length, unprocessed IL-33 contains 270 a.a. and may also be referred to as IL-33₁₋₂₇₀. Processed forms of human IL-33 include, for example, IL-33₉₅₋₂₇₀, IL-33₉₉₋₂₇₀, IL-33₁₀₉₋₂₇₀, IL-33₁₁₂₋₂₇₀, IL-33₁₋₁₇₈, and IL-33₁₇₉₋₂₇₀ (Lefrangais et al. Proc. Natl. Acad. Sci. 109(5): 1673-1678, 2012 and Martin, Semin. Immunol. 25: 449-457, 2013). In some embodiments, processed forms of human IL-33, e.g., IL-33₉₅₋₂₇₀, IL-33₉₉₋₂₇₀, IL-33₁₀₉₋₂₇₀, or other forms processed by proteases such as calpain, proteinase 3, neutrophil elastase, and cathepsin G may have increased biological activity compared to full-length IL-33. The term also encompasses naturally occurring variants of IL-33, for example, splice variants (e.g., the constitutively active splice variant spIL-33 which lacks exon 3, Hong et al. J. Biol. Chem. 286(22): 20078-20086, 2011) or allelic variants. IL-33 may be present within a cell (e.g., within the nucleus) or as a secreted cytokine form. Full-length IL-33 protein contains a helix-turn-helix DNA-binding motif including nuclear localization sequence (a.a. 1-75 of human IL-33), which includes a chromatin binding motif (a.a. 40-58 of human IL-33). Forms of IL-33 that are processed and secreted lack these N-terminal motifs. The amino acid sequence of an exemplary human IL-33 can be found, for example, under UniProtKB accession number 095760.

By “IL-33 axis” is meant a nucleic acid (e.g., a gene or mRNA transcribed from the gene) or polypeptide that is involved in IL-33 signal transduction. For example, the IL-33 axis may include the ligand IL-33, a receptor (e.g., ST2 and/or IL-1 RAcP), adaptor molecules (e.g., MyD88), or proteins that associate with receptor molecules and/or adaptor molecules (e.g., kinases, such as interleukin-1 receptor-associated kinase 1 (IRAK1) and interleukin-1 receptor-associated kinase 4 (IRAK4), or E3 ubiquitin ligases, such as TNF receptor associated factor 6 (TRAF6)).

An “IL-33 axis binding antagonist” refers to a molecule that inhibits the interaction of an IL-33 axis binding partner with one or more of its binding partners. As used herein, an IL-33 axis binding antagonist includes IL-33 binding antagonists, ST2 binding antagonists, and IL1 RAcP binding antagonists. Exemplary IL-33 axis binding antagonists include anti-IL-33 antibodies and antigen-binding fragments thereof (e.g., anti-IL-33 antibodies such as ANB-020 (AnaptysBio Inc.) or any of the antibodies described in EP1725261, U.S. Pat. No. 8,187,596, WO2011031600, WO2014164959, WO2015099175 or WO2015106080, which are each incorporated herein by reference in their entirety); polypeptides that bind IL-33 and/or its receptor (ST2 and/or IL-1 RAcP) and block ligand-receptor interaction (e.g., ST2-Fc proteins; immunoadhesins, peptibodies, and soluble ST2, or derivatives thereof); anti-IL-33 receptor antibodies (e.g., anti-ST2 antibodies, for example, AMG-282 (Amgen) or STLM15 (Janssen) or any of the anti-ST2 antibodies described in WO 2013/173761 or WO 2013/165894, which are each incorporated herein by reference in their entirety; or ST2-Fc proteins, such as those described in WO 2013/173761; WO 2013/165894; or WO 2014/152195, which are each incorporated herein by reference in their entirety); and IL-33 receptor antagonists, such as small molecule inhibitors, aptamers that bind IL-33, and nucleic acids that hybridize under stringent conditions to IL-33 axis nucleic acid sequences (e.g., short interfering RNAs (siRNA) or clustered regularly interspaced short palindromic repeat RNAs (CRISPR-RNA or crRNA)).

The term “ST2 binding antagonist” refers to a molecule that inhibits the interaction of an ST2 with IL-33, IL1 RAcP, and/or a second ST2 molecule. The ST2 binding antagonist may be a protein, such as an “ST2-Fc protein” that includes an IL-33-binding domain (e.g., all or a portion of an ST2 or IL1 RAcP protein) and a multimerizing domain (e.g., an Fc portion of an immunoglobulin, e.g., an Fc domain of an IgG selected from the isotypes IgG1, IgG2, IgG3, and IgG4, as well as any allotype within each isotype group), which are attached to one another either directly or indirectly through a linker (e.g., a serine-glycine (SG) linker, glycine-glycine (GG) linker, or variant thereof (e.g., a SGG, a GGS, an SGS, or a GSG linker)), and includes, but is not limited to, ST2-Fc proteins and variants thereof described in WO 2013/173761, WO 2013/165894, and WO 2014/152195, which are each incorporated herein by reference in their entirety.

The term “IL-33-mediated disorder,” as used herein, refers to any disorder or condition mediated by, or associated with, the IL-33 axis. In some embodiments, IL-33-mediated disorders are associated with excess IL-33 levels or activity in which atypical symptoms may manifest due to the levels or activity of IL-33 locally and/or systemically in the body. Exemplary IL-33-mediated disorders include inflammatory conditions, immune disorders, fibrotic disorders, eosinophilic disorders, infections, pain, central nervous system disorders, solid tumors, and ophthalmologic disorders. IL-33-mediated disorders are described, for example, in Liew et al. Nature Reviews Immunology 10: 103-110, 2010, which is incorporated herein by reference in its entirety.

Exemplary inflammatory conditions include asthma (e.g., allergic asthma, exercise-induced asthma, aspirin sensitive/exacerbated asthma, atopic asthma, severe asthma, mild asthma, moderate to severe asthma, corticosteroid naïve asthma, chronic asthma, corticosteroid resistant asthma, corticosteroid refractory asthma, newly diagnosed and untreated asthma, asthma due to smoking, asthma uncontrolled on corticosteroids, etc.), airway inflammation, airway hyperreactivity, airway hyperresponsiveness, rhinosinusitis, rhinosinusitis with polyps, nasal polyposis, arthritis (e.g., osteoarthritis, rheumatoid arthritis, collagen-induced arthritis, arthritic joints as a result of injury, etc.), eosinophilic inflammation, mast cell-mediated inflammatory diseases, sepsis, septic shock, seronegative enthesopathy and arthropathy (SEA) syndrome, osteoporosis, eosinophilic esophagitis, scleroderma, dermatitis, atopic dermatitis, allergic rhinitis, bullous pemphigoid, chronic urticaria, cartilage inflammation, polymyalgia rheumatic, polyarteritis nodossa, Wegener's granulomatosis, Behcet's disease, myolitis, polymyolitis, dermatomyolitis, dermatomyositis, vasculitis, arteritis, diabetic nephropathy, interstitial cystitis, graft versus host disease (GVHD), gastrointestinal inflammatory conditions (e.g., inflammatory bowel disease (IBD), ulcerative colitis (UC), Crohn's disease (CD), colitis (e.g., colitis caused by environmental insults (e.g., caused by or associated with a therapeutic regimen, such as chemotherapy, radiation therapy, etc.), infectious colitis, ischemic colitis, collagenous or lymphocytic colitis, necrotizing enterocolitis, colitis in conditions such as chronic granulomatous disease or celiac disease, food allergies, gastritis, infectious gastritis or enterocolitis (e.g., Helicobacter pylori-infected chronic active gastritis), and other forms of gastrointestinal inflammation caused by an infectious agent), and inflammatory pulmonary conditions (e.g., chronic obstructive pulmonary disease (COPD), eosinophilic pulmonary inflammation, infection-induced pulmonary conditions (including those associated with viral (e.g., influenza, parainfluenza, rotavirus, human metapneumovirus, and respiratory syncytial virus), bacterial, fungal (e.g., Aspergillus), parasitic, or prion infection, allergen-induced pulmonary conditions, pollutant-induced pulmonary conditions (e.g., asbestosis, silicosis, or berylliosis), gastric aspiration-induced pulmonary conditions, immune dysregulation, inflammatory conditions with genetic predisposition such as cystic fibrosis, physical trauma-induced pulmonary conditions (e.g., ventilator injury), emphysema, bronchitis, sarcoidosis, histiocytosis, lymphangiomyomatosis, acute lung injury, acute respiratory distress syndrome, chronic lung disease, bronchopulmonary dysplasia, pneumonia (e.g., community-acquired pneumonia, nosocomial pneumonia, ventilator-associated pneumonia, viral pneumonia, bacterial pneumonia, and severe pneumonia), airway exacerbations, and acute respiratory distress syndrome (ARDS)).

Exemplary immune disorders include those mediated at least in part by mast cells, such as asthma (e.g., allergic asthma), eczema, itch, allergy, atopic allergy, anaphylaxis, anaphylactic shock, allergic bronchopulmonary aspergillosis, allergic rhinitis, allergic conjunctivitis, as well as autoimmune disorders including rheumatoid arthritis, juvenile rheumatoid arthritis, psoriatic arthritis, pancreatitis, psoriasis, plaque psoriasis, guttate psoriasis, inverse psoriasis, pustular psoriasis, erythrodermic psoriasis, paraneoplastic autoimmune diseases, autoimmune hepatitis, bullous pemphigoid, myasthenia gravis, inflammatory bowel disease, Crohn's disease, ulcerative colitis, celiac disease, thyroiditis (e.g., Graves' disease), Sjogren's syndrome, Guillain-Barre disease, Raynaud's phenomenon, Addison's disease, liver diseases (e.g., primary biliary cirrhosis, primary sclerosing cholangitis, non-alcoholic fatty liver disease, and non-alcoholic steatohepatitis), and diabetes (e.g., type I diabetes).

As used herein, the terms “fibrotic disorder” or “fibrosis” refer to conditions involving formation of excess fibrous connective tissue in an organ or tissue. Exemplary fibrotic disorders include lung fibrosis, liver fibrosis (e.g., fibrosis associated with cirrhosis (e.g., alcohol-induced cirrhosis, viral-induced cirrhosis, post-hepatitis C cirrhosis, and primary biliary cirrhosis), schistosomiasis, cholangitis (e.g., sclerosing cholangitis), and autoimmune-induced hepatitis), kidney fibrosis (e.g., tubulointerstitial fibrosis, scleroderma, diabetic nephritis, and glomerular nephritis), dermal fibrosis (e.g., scleroderma, hypertrophic and keloid scarring, nephrogenic fibrosing dermatopathy, and burns), myelofibrosis, neurofibromatosis, fibroma, intestinal fibrosis, and fibrotic adhesions resulting from surgical procedures), heart fibrosis (e.g., fibrosis associated with myocardial infarction), vascular fibrosis (e.g., fibrosis associated with postangioplasty arterial restenosis and atherosclerosis), eye fibrosis (e.g., fibrosis associated with post-cataract surgery, proliferative vitreoretinopathy, and retro-orbital fibrosis), and bone marrow fibrosis (e.g., idiopathic myelofibrosis and drug-induced myelofibrosis). The fibrosis can be organ-specific or systemic (e.g., systemic sclerosis and fibrosis associated with GVHD).

Examples of lung fibrosis include, for example, lung or pulmonary fibrosis associated with idiopathic pulmonary fibrosis, fibrosis with collagen vascular disease, Hermansky-Pudlak syndrome, adult respiratory distress syndrome, nonspecific interstitial pneumonia, respiratory bronciolitis, sarcoidosis, histiocytosis X, bronchiolitis obliterans, and cryptogenic organizing pneumonia. In one embodiment, the lung fibrosis is idiopathic pulmonary fibrosis.

As used herein, an “eosinophilic disorder” is a disorder associated with excess eosinophil numbers in which atypical symptoms may manifest due to the levels or activity of eosinophils locally or systemically in the body. Eosinophilic disorders include but are not limited to, asthma (including aspirin sensitive asthma, atopic asthma, and severe asthma), eosinophilic inflammation, atopic dermatitis, allergic rhinitis (including seasonal allergic rhinitis), non-allergic rhinitis, chronic eosinophilic pneumonia, allergic bronchopulmonary aspergillosis, celiac disease, Churg-Strauss syndrome (periarteritis nodosa plus atopy), eosinophilic myalgia syndrome, hypereosinophilic syndrome, edematous reactions including episodic angiodema, helminth infections, where eosinophils may have a protective role, onchocercal dermatitis, eosinophil-associated gastrointestinal disorders (EGIDs), including but not limited to, eosinophilic esophagitis, eosinophilic gastritis, eosinophilic gastroenteritis, eosinophilic enteritis and eosinophilic colitis, nasal micropolyposis and polyposis, aspirin intolerance, and obstructive sleep apnea. Eosinophil-derived secretory products have also been associated with the promotion of angiogenesis and connective tissue formation in tumors and the fibrotic responses seen in conditions such as chronic asthma, Crohn's disease, scleroderma and endomyocardial fibrosis (Munitz et al. Allergy 59: 268-275, 2004; Adamko et al. Allergy 60: 13-22, 2005; Oldhoff et al. Allergy 60: 693-696, 2005). Other examples include cancer (e.g., glioblastoma (such as glioblastoma multiforme) and non-Hodgkin's lymphoma (NHL)), atopic dermatitis, allergic rhinitis, inflammatory bowel disease, fibrosis (e.g., pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis (IPF) and pulmonary fibrosis secondary to sclerosis) and hepatic fibrosis), and COPD.

Examples of infection include helminth infection (e.g., nematode infection, such as Trichuris muris infection of mice, which is a model for infection by the human parasite Trichuris trichiura), protozoan infection (e.g., Leishmania major infection), and viral infection (e.g., respiratory syncytial virus infection and influenza virus infection).

Examples of pain include inflammatory pain, hyperalgesia (e.g., mechanical hyperalgesia), allodynia, and hypernociception (e.g., cutaneous and articular hypernociception, which may or may not be antigen-induced).

Examples of central nervous system disorders include subarachnoid hemorrhage, inflammatory diseases of the central nervous system, neurodegenerative diseases (e.g., Alzheimer's disease, multiple sclerosis, Parkinson's disease, Huntington's disease), bipolar disorder, and infection of the central nervous system (e.g., viral infection).

Examples of solid tumors include tumors of the colon, breast, prostate, lung, kidney, liver, pancreas, ovary, head and neck, oral cavity, stomach, duodenum, small intestine, large intestine, gastrointestinal tract, anus, gall bladder, labium, nasopharynx, skin, uterus, male genital organ, urinary organs, bladder, and skin. Solid tumors of non-epithelial origin include sarcomas, brain tumors, and bone tumors.

Examples of ophthalmologic disorders include age-related macular degeneration (AMD), including wet or dry AMD, geographic atrophy (GA), retinopathy (e.g., diabetic retinopathy (DR) and retinopathy of prematurity (ROP)), polypoidal choroidal vasculopathy (PCV), diabetic macular edema, dry eye disease, Bechet's disease, and retina detachment.

The above list is not all-inclusive, and it will be understood by the skilled artisan that a disease or disorder may fall within various categories. For example, asthma can be categorized in some instances as both an inflammatory disorder and immune disorder and considered by some clinicians to be an autoimmune disorder.

As used herein, “chemoattractant receptor-homologous molecule expressed on Th2 cells (CRTH2)” refers to any native CRTH2 from any vertebrate source, including mammals such as primates (e.g., humans) and rodents (e.g., mice and rats), unless otherwise indicated. CRTH2 is also referred to as G protein coupled receptor 44 (GPR44), cluster of differentiation 294 (CD294), DL1R, and DP2. The term encompasses “full-length,” unprocessed CRTH2, as well as any form of CRTH2 that results from processing in the cell. The amino acid sequence of an exemplary human CRTH2 can be found, for example, under UniProtKB accession number Q9Y5Y4.

The term “CRTH2 binding antagonist” refers to a molecule that decreases, blocks, inhibits, abrogates or interferes with signal transduction resulting from the interaction of CRTH2 with one or more of its binding partners, such as prostaglandin D₂. Exemplary CRTH2 binding antagonists known in the art include AMG-853, AP768, AP-761, MLN6095, and ACT129968.

The term “interleukin-5 (IL-5),” as used herein, refers to any native IL-5 from any vertebrate source, including mammals such as primates (e.g. humans) and rodents (e.g., mice and rats), unless otherwise indicated. The term encompasses “full-length,” unprocessed IL-5, as well as any form of IL-5 that results from processing in the cell. The term also encompasses naturally occurring variants of IL-5, such as splice variants or allelic variants. The amino acid sequence of an exemplary IL-5 can be found, for example, under UniProtKB accession number P05113.

The term “IL-5 binding antagonist” refers to a molecule that decreases, blocks, inhibits, abrogates or interferes with signal transduction resulting from the interaction of IL-5 with one or more of its binding partners, such as IL-5 receptor, alpha (IL5RA). Exemplary IL-5 binding antagonists that can be used in the methods of the invention include, for example, anti-IL-5 antibodies (e.g., mepolizumab and reslizumab) and anti-IL-SR antibodies.

As used herein, “interleukin-13 (IL-13)” refers to any native IL-13 from any vertebrate source, including mammals such as primates (e.g., humans) and rodents (e.g., mice and rats), unless otherwise indicated. IL-13 is a cytokine secreted by many cell types, including T helper type 2 (Th2) cells. The term encompasses “full-length,” unprocessed IL-13, as well as any form of IL-13 that results from processing in the cell. The amino acid sequence of an exemplary human IL-13 can be found, for example, under UniProtKB accession number P35225.

The term “IL-13 binding antagonist” refers to a molecule that decreases, blocks, inhibits, abrogates or interferes with signal transduction resulting from the interaction of IL-13 with one or more of its binding partners, such as IL-4 receptor alpha (IL4Ra), IL-13 receptor alpha1 (IL13RA1) and IL-13 receptor alpha2 (IL13RA2). IL-13 binding antagonists include anti-IL-13 antibodies, for example, lebrikizumab, 228B/C-1, 228A-4, 227-26, and 227-43 (see, for example, U.S. Pat. Nos. 7,674,459; 8,067,199; 8,088,618; 8,318,160; and 8,734,797).

As used herein, “interleukin-17 (IL-17)” refers to any native IL-17 from any vertebrate source, including mammals such as primates (e.g., humans) and rodents (e.g., mice and rats), unless otherwise indicated, and includes family members IL-17A, IL-17B, IL-17C, IL-17D, IL-17E, and IL-17F. The term encompasses “full-length,” unprocessed IL-17, as well as any form of IL-17 that results from processing in the cell. The amino acid sequence of an exemplary human IL-17A can be found, for example, under UniProtKB accession number Q16552. The amino acid sequence of an exemplary human IL-17B can be found, for example, under UniProtKB accession number Q9UHF5. The amino acid sequence of an exemplary human IL-17C can be found, for example, under UniProtKB accession number Q9P0M4. The amino acid sequence of an exemplary human IL-17D can be found, for example, under UniProtKB accession number Q8TAD2. The amino acid sequence of an exemplary human IL-17E can be found, for example, under UniProtKB accession number Q9H293. The amino acid sequence of an exemplary human IL-17F can be found, for example, under UniProtKB accession number Q96PD4.

The term “IL-17 binding antagonist” refers to a molecule that decreases, blocks, inhibits, abrogates or interferes with signal transduction resulting from the interaction of IL-17 with one or more of its binding partners, such as interleukin-17 receptor (IL-17R) family member proteins interleukin 17 receptor A (IL17RA), interleukin 17 receptor B (IL17RB), interleukin 17 receptor C (IL17RC), interleukin 17 receptor D (IL17RD), interleukin 17 receptor E (IL17RE), and interleukin 17 receptor E-like (IL17REL). Exemplary IL-17 binding antagonists include, for example, anti-IL-17 antibodies (e.g., ixekizumab (LY2439821) and anti-IL-17R antibodies (e.g., brodalumab (AMG-827)).

The term “Janus kinase 1 (JAK1),” as used herein, refers to any native JAK1 from any vertebrate source, including mammals such as primates (e.g. humans) and rodents (e.g., mice and rats), unless otherwise indicated. The term encompasses “full-length,” unprocessed JAK1 as well as any form of JAK1 that results from processing in the cell. The term also encompasses naturally occurring variants of JAK1, e.g., splice variants or allelic variants. The amino acid sequence of an exemplary JAK1 can be found, for example, under UniProtKB accession number P23458.

The term “JAK1 antagonist,” as used herein, refers to compounds or agents which inhibit or reduce the biological activity of JAK1. Exemplary JAK1 antagonists include small molecule inhibitors (e.g., ruxolitinib, GLPG0634, and GSK2586184).

As used herein, “tryptase-beta” refers to any native tryptase-beta from any vertebrate source, including mammals such as primates (e.g., humans) and rodents (e.g., mice and rats), unless otherwise indicated. As used herein, the term encompasses tryptase beta-1 (encoded by the TPSAB1 gene, which also encodes tryptase alpha-1) and tryptase beta-2 (encoded by the TPSB2 gene). The term encompasses “full-length,” unprocessed tryptase-beta as well as any form of tryptase-beta that results from processing in the cell. The amino acid sequence of an exemplary human tryptase beta-2 can be found, for example, under UniProtKB accession number P20231.

The term “tryptase-beta antagonist,” as used herein, refers to compounds or agents which inhibit or reduce the biological activity of tryptase beta.

The phrase “informing the patient” with respect to a treatment, as used herein, refers to using the information or data generated relating to the genotype of a polymorphism as described herein and/or the level or presence of at least one marker, for example, periostin, in a sample of a patient to identify the patient as suitably treated or not suitably treated with a therapy (e.g., a therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist)). In some embodiments the recommendation may include the identification of a patient who requires adaptation of an effective amount of a therapy (e.g., an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist)) being administered. In some embodiments, recommending a treatment includes recommending that the amount of a therapy (e.g., an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist)) being administered is adapted. The phrase “informing the patient” or “providing a recommendation,” with respect to a treatment, as used herein also may refer to using the information or data generated for proposing or selecting a therapy (e.g., therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist)) for a patient identified or selected as more or less likely to respond to the therapy. The information or data used or generated may be in any form, written, oral or electronic. In some embodiments, using the information or data generated includes communicating, presenting, reporting, storing, sending, transferring, supplying, transmitting, dispensing, or combinations thereof. In some embodiments, communicating, presenting, reporting, storing, sending, transferring, supplying, transmitting, dispensing, or combinations thereof are performed by a computing device, analyzer unit or combination thereof. In some further embodiments, communicating, presenting, reporting, storing, sending, transferring, supplying, transmitting, dispensing, or combinations thereof are performed by a laboratory or medical professional. In some embodiments, the information or data includes a comparison of the level of a marker, for example, periostin, to a reference level. In some embodiments, the information or data includes an indication that a marker, for example, periostin, is present or absent in the sample. In some embodiments, the information or data includes an indication that the patient is suitably treated or not suitably treated with a therapy (e.g., therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist)).

A “kit” is any manufacture (e.g., a package or container) comprising at least one reagent, for example, a probe for determining the genotype of a polymorphism as described herein and/or a medicament for treatment of an IL-33-mediated disorder (e.g., an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist)). The manufacture is preferably promoted, distributed, or sold as a unit for performing the methods of the present invention.

The terms “level,” “level of expression,” or “expression level” are used interchangeably and generally refer to the amount of a polynucleotide or an amino acid product or protein in a biological sample. “Expression” generally refers to the process by which gene-encoded information is converted into the structures present and operating in the cell. Therefore, according to the invention, “expression” of a gene may refer to transcription into a polynucleotide, translation into a protein, or even posttranslational modification of the protein. Fragments of the transcribed polynucleotide, the translated protein, or the post-translationally modified protein shall also be regarded as expressed whether they originate from a transcript generated by alternative splicing or a degraded transcript, or from a post-translational processing of the protein, e.g., by proteolysis. “Expressed genes” include those that are transcribed into a polynucleotide as mRNA and then translated into a protein, and also those that are transcribed into RNA but not translated into a protein (e.g., transfer and ribosomal RNAs).

The terms “oligonucleotide” and “polynucleotide” are used interchangeably and refer to a molecule comprised of two or more deoxyribonucleotides or ribonucleotides, preferably more than three. Its exact size will depend on many factors, which in turn depend on the ultimate function or use of the oligonucleotide. An oligonucleotide can be derived synthetically or by cloning. Chimeras of deoxyribonucleotides and ribonucleotides may also be in the scope of the present invention.

The term “patient” refers to any single animal, more specifically a mammal (including such non-human animals as, for example, dogs, cats, horses, rabbits, zoo animals, cows, pigs, sheep, and non-human primates) for which diagnosis or treatment is desired. Even more specifically, the patient herein is a human. In the context of the present invention, the patient may be a subject of any suitable population group, for example, any population group described in Example 4. In some embodiments, the patient may belong to a population group of African ancestry, Asian ancestry, and/or European ancestry, for example, a patient of Northern European ancestry. The patient may be a clinical patient, a clinical trial volunteer, an experimental animal, etc. The patient may be suspected of having, at risk for having, or diagnosed with an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)).

The term “a patient suffering from” refers to a patient showing clinical signs in respect to a certain disease, such as, for example, an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)).

The term “periostin,” as used herein, refers to a protein that, in humans, is encoded by the POSTN gene, including any known isoform or variant thereof. Periostin is also referred to in the art as osteoblast specific factor or OSF-2. Human periostin isoforms 1, 2, 3 and 4 are known in the art as comprising the following amino acid sequences: NP_006466.2; NP_001129406.1, NP_001129407.1, and NP_001129408.1, respectively, according to the NCBI database. An additional form of periostin is described in U.S. Patent Publication 2012/0156194. This isoform is referred to herein as “isoform 5” and has been partially sequenced. Isoform 5 comprises the amino acid sequence of SEQ ID NO: 23 of U.S. Patent Publication 2012/0156194, the entirety of which is incorporated herein by reference. In some embodiments, periostin is serum periostin or plasma periostin (i.e., periostin from a serum sample obtained from whole blood or a plasma sample obtained from whole blood, respectively, the whole blood obtained from a patient).

The term “pharmaceutical composition” refers to a sterile preparation that is in such form as to permit the biological activity of the medicament to be effective, and which contains no additional components that are unacceptably toxic to a subject to which the formulation would be administered.

A nucleotide position in a genome at which more than one sequence is possible in a population is referred to herein as a “polymorphism” or “polymorphic site.” A polymorphic site may be a nucleotide sequence of two or more nucleotides, an inserted nucleotide or nucleotide sequence, a deleted nucleotide or nucleotide sequence, or a microsatellite, for example. A polymorphic site that is two or more nucleotides in length may be 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 or more, 20 or more, 30 or more, 50 or more, 75 or more, 100 or more, 500 or more, or about 1000 nucleotides in length, where all or some of the nucleotide sequences differ within the region. A polymorphic site which is a single nucleotide in length is referred to herein as a single nucleotide polymorphism (SNP), as described below. When there are two, three or four alternative nucleotide sequences at a polymorphic site, each nucleotide sequence is referred to as a “polymorphic variant” or “nucleic acid variant.” Each possible variant in the DNA sequence is referred to as an “allele.” Typically, the first identified allelic form is arbitrarily designated as the reference form and other allelic forms are designated as alternative or variant alleles. A “common” allele is an allele that is prevalent in a given population, e.g., the allele is present in multiple members of a population at a generally accepted frequency of greater than about 2%. Where two polymorphic variants exist, the polymorphic variant represented in a majority of samples from a population is referred to as a “prevalent allele,” or “major allele,” and the polymorphic variant that is less prevalent in the population is referred to as an “uncommon allele” or “minor allele.” An individual who carries two prevalent alleles or two uncommon alleles is “homozygous” with respect to the polymorphism. An individual who carries one prevalent allele and one uncommon allele is “heterozygous” with respect to the polymorphism. With C/G or NT SNPs, the alleles are ambiguous and dependent on the strand used to extract the data from the genotyping platform. With these C/G or NT SNPs, the C or G nucleotide or the A or T nucleotide, respectively, may be the risk allele and is determined by correlation of allele frequencies.

The allele that correlates with an increased risk for a disease or disorder (e.g., an IL-33-mediated disorder, such an asthma) or is associated with an odds ratio or relative risk of >1 is referred to as the “risk allele” or “effect allele.” The “risk allele” or “effect allele” may be the minor allele or major allele.

“Equivalent allele” or “surrogate allele,” as used herein, refers to an allele that is expected to behave similarly to a risk allele and is selected based on allele frequencies and/or high r² value (greater than or equal to (≥) 0.6) and/or high D′ value (≥0.6) with the risk alleles and/or selected SNP as defined herein. In one embodiment, the high r² value is ≥0.6, ≥0.7, ≥0.8, ≥0.9, or 1.0. In one embodiment, the high D′ value is ≥0.6, ≥0.7, ≥0.8, ≥0.9, or 1.0.

“Linkage disequilibrium” or “LD” when used herein refers to alleles at different loci that are not associated at random, i.e., not associated in proportion to their frequencies. If the alleles are in positive linkage disequilibrium, then the alleles occur together more often than expected assuming statistical independence. Conversely, if the alleles are in negative linkage disequilibrium, then the alleles occur together less often than expected assuming statistical independence.

“Odds ratio” or “OR” when used herein refers to the ratio of the odds of the disease for individuals with the marker (allele or polymorphism) relative to the odds of the disease in individuals without the marker (allele or polymorphism).

“Haplotype” when used herein refers to a group of alleles on a single chromosome that are closely enough linked to be inherited usually as a unit.

In certain embodiments, the term “reference level” herein refers to a predetermined value. As the skilled artisan will appreciate, the reference level is predetermined and set to meet the requirements in terms of, for example, specificity and/or sensitivity. These requirements can vary, e.g., from regulatory body to regulatory body. It may be, for example, that assay sensitivity or specificity, respectively, has to be set to certain limits, e.g., 80%, 90% or 95%. These requirements may also be defined in terms of positive or negative predictive values. Nonetheless, based on the teaching given in the present invention it will always be possible to arrive at the reference level meeting those requirements. In one embodiment, the reference level is determined in healthy individuals. The reference value in one embodiment has been predetermined in the disease entity to which the patient belongs (e.g., an IL-33-mediated disorder, such as asthma). In certain embodiments, the reference level can be set to any percentage between, e.g., 25% and 75% of the overall distribution of the values in a disease entity investigated. In other embodiments, the reference level can be set to, for example, the median, tertiles, quartiles, or quintiles as determined from the overall distribution of the values in a disease entity investigated or in a given population. In one embodiment, the reference level is set to the median value as determined from the overall distribution of the values in a disease entity investigated. In one embodiments, the reference level may depend on the gender of the patient, e.g., males may have a different reference level than females.

In certain embodiments, the term “increase” or “above” refers to a level at the reference level or to an overall increase of 5%, 10%, 20%, 25%, 30%, 40%, 50%, 60%, 70%, 80%, 85%, 90%, 95%, 100% or greater, in the level of a marker (e.g., periostin or sST2) detected by the methods described herein, as compared to the level from a reference sample.

In certain embodiments, the term “decrease” or “below” herein refers to a level below the reference level or to an overall reduction of 5%, 10%, 20%, 25%, 30%, 40%, 50%, 60%, 70%, 80%, 85%, 90%, 95%, 96%, 97%, 98%, 99% or greater, in the level of a marker (e.g., periostin or sST2) detected by the methods described herein, as compared to the level from a reference sample.

In certain embodiments, the term “at a reference level” refers to a level of a marker (e.g., periostin or sST2) that is the same as the level, detected by the methods described herein, from a reference sample.

A “response” of a patient or a patient's “responsiveness” to treatment or therapy, for example treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), refers to the clinical or therapeutic benefit imparted to a patient at risk for or having an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis, e.g., idiopathic pulmonary fibrosis) from or as a result of the treatment. Such benefit may include cellular or biological responses, a complete response, a partial response, a stable disease (without progression or relapse), or a response with a later relapse of the patient from or as a result of the treatment with the antagonist. A skilled person will readily be in position to determine whether a patient is responsive. For example, a patient suffering from asthma who is responsive to treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) may show observable and/or measurable reduction in or absence of one or more of the following exemplary symptoms: recurrent wheezing, coughing, trouble breathing, chest tightness, symptoms that occur or worsen at night, symptoms that are triggered by cold air, exercise or exposure to allergens.

The term “single nucleotide polymorphism” or “SNP” refers to a single base substitution within a DNA sequence that leads to genetic variability. Single nucleotide polymorphisms may occur at any region of a gene. In some instances the polymorphism can result in a change in protein sequence. The change in protein sequence may affect protein function or not.

The term “selected SNP” when used herein refers to a SNP selected from the group consisting of polymorphism rs4988956 (SEQ ID NO: 1); polymorphism rs10204137 (SEQ ID NO: 2); polymorphism rs10192036 (SEQ ID NO: 3); polymorphism rs10192157 (SEQ ID NO: 4); polymorphism rs10206753 (SEQ ID NO: 5); and polymorphism rs4742165 (SEQ ID NO: 6).

The term “alternate SNP” when used herein refers to a SNP that is expected to behave similarly to a selected SNP and is selected based on similar allele frequencies and/or has linkage disequilibrium with a selected SNP as measured by an r²≥0.6 and/or D′≥0.6. Alternate SNPs include SNPs listed in Tables 3 and 4 that are in linkage disequilibrium with the SNPs described herein including polymorphism rs4988956 (SEQ ID NO: 1); polymorphism rs10204137 (SEQ ID NO: 2); polymorphism rs10192036 (SEQ ID NO: 3); polymorphism rs10192157 (SEQ ID NO: 4); polymorphism rs10206753 (SEQ ID NO: 5); and polymorphism rs4742165 (SEQ ID NO: 6). In some embodiments, the alternate SNP is in Table 3. In other embodiments, the alternate SNP is in Table 4.

The terms “sample” and “biological sample” are used interchangeably to refer to any biological sample obtained from an individual including body fluids, body tissue (e.g., lung samples), nasal samples (including nasal swabs or nasal polyps), sputum, cells, or other sources. Body fluids include, e.g., lymph, sera, whole fresh blood, frozen whole blood, plasma (including fresh or frozen), peripheral blood mononuclear cells, urine, saliva, semen, synovial fluid and spinal fluid. Methods for obtaining tissue biopsies and body fluids from mammals are well known in the art.

As used herein, “therapy” or “treatment” refers to clinical intervention in an attempt to alter the natural course of the individual or cell being treated, and can be performed either for prophylaxis or during the course of clinical pathology. Desirable effects of treatment include preventing occurrence or recurrence of disease, alleviation of symptoms, diminishment of any direct or indirect pathological consequences of the disease, decreasing the rate of disease progression, amelioration or palliation of the disease state, and remission or improved prognosis. Those in need of treatment include can include those already with the disorder as well as those at risk to have the disorder or those in whom the disorder is to be prevented. A patient may be successfully “treated” for asthma if, for example, after receiving an asthma therapy, the patient shows observable and/or measurable reduction in or absence of one or more of the following: recurrent wheezing, coughing, trouble breathing, chest tightness, symptoms that occur or worsen at night, symptoms that are triggered by cold air, exercise or exposure to allergens.

“Tumor,” as used herein, refers to all neoplastic cell growth and proliferation, whether malignant or benign, and all pre-cancerous and cancerous cells and tissues. The terms “cancer,” “cancerous,” “cell proliferative disorder,” “proliferative disorder,” and “tumor” are not mutually exclusive as referred to herein.

II. Therapeutic Methods

The present invention provides methods of treating a patient suffering from an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis, e.g., idiopathic pulmonary fibrosis). In some embodiments, the methods of the invention include administering a therapy to a patient based on the presence and/or expression level of a biomarker of the invention, for example, a polymorphism (e.g., a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1); rs10204137 (SEQ ID NO: 2); rs10192036 (SEQ ID NO: 3); rs10192157 (SEQ ID NO: 4); rs10206753 (SEQ ID NO: 5); rs4742165 (SEQ ID NO: 6); and a SNP that is in linkage disequilibrium to rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and/or rs4742165 (SEQ ID NO: 6)), periostin, and/or sST2. In some instances, the polymorphism that is in linkage disequilibrium to rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), and/or rs10206753 (SEQ ID NO: 5) is listed in Table 3. In some instances, the polymorphism that is in linkage disequilibrium to rs4742165 (SEQ ID NO: 6) is listed in Table 4.

In some embodiments, the methods of the invention include administering to the patient a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an interleukin-13 (IL-13) binding antagonist, an interleukin-17 (IL-17) binding antagonist, a Janus kinase 1 (JAK1) antagonist, and/or an interleukin-5 (IL-5) binding antagonist, wherein the genotype of the patient has been determined to comprise at least one (e.g., 1, 2, 3, 4, 5, 6, 7, or more than 7) allele(s) selected from the group consisting of a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6). In some embodiments, the SNP that is in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1), polymorphism rs10204137 (SEQ ID NO: 2), polymorphism rs10192036 (SEQ ID NO: 3), polymorphism rs10192157 (SEQ ID NO: 4), and/or polymorphism rs10206753 (SEQ ID NO: 5) is listed in Table 3. In some embodiments, the SNP that is in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6) is listed in Table 4. In some embodiments, the methods of the invention include administering to the patient a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an interleukin-13 (IL-13) binding antagonist, an interleukin-17 (IL-17) binding antagonist, a Janus kinase 1 (JAK1) antagonist, and/or an interleukin-5 (IL-5) binding antagonist, wherein the genotype of the patient has been determined to comprise at least one allele (e.g., 1, 2, 3, 4, or 5 alleles) listed in Table 2 (e.g., the genotype of the patient may comprise a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); and/or a T allele at polymorphism rs10206753 (SEQ ID NO: 5)).

In some embodiments, the methods of the invention include administering to the patient a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an interleukin-13 (IL-13) binding antagonist, an interleukin-17 (IL-17) binding antagonist, a Janus kinase 1 (JAK1) antagonist, and/or an interleukin-5 (IL-5) binding antagonist, wherein the genotype of the patient has been determined to comprise a T allele at polymorphism rs4742165 (SEQ ID NO: 6).

In any of the preceding methods, the equivalent allele may be at an alternate SNP that is in linkage disequilibrium with one or more of the selected SNPs described herein. In some embodiments, the linkage disequilibrium is a D′ value or an r² value. In some embodiments, the D′ measure between the selected SNP and the alternate SNP is ≥0.60 (e.g., ≥0.60, ≥0.65, ≥0.7, ≥0.75, ≥0.8, ≥0.85, ≥0.9, ≥0.95, or higher). In some embodiments, the D′ value between the selected SNP and the alternate SNP is ≥0.70, ≥0.80, or ≥0.90. In some embodiments, the D′ value between the selected SNP and the alternate SNP is 1.0. In some embodiments, the r² value between the selected SNP and the alternate SNP is ≥0.60 (e.g., ≥0.60, ≥0.65, ≥0.7, ≥0.75, ≥0.8, ≥0.85, ≥0.9, ≥0.95, or higher). In some embodiments the r² value between the selected SNP and the alternate SNP is ≥0.70, ≥0.80, or ≥0.90. In some embodiments, the r² value between the selected SNP and the alternate SNP is 1.0. In some embodiments, the alternate SNP is a SNP designated in Table 3 or 4. In any of the preceding methods, the equivalent allele may be the minor allele or the major allele. In some instances, the equivalent allele is the minor allele. In other instances, the equivalent allele is the major allele.

The genotype of a patient can be determined using any of the methods or assays described herein (e.g., in Section IV of the Detailed Description of the Invention or in Example 1) or that are known in the art. In some embodiments, the methods are directed to, or further include, determining the level of a biomarker (e.g., periostin or sST2) in a sample derived from the patient. The level of a biomarker (e.g., periostin or sST2) can be determined using any of the assays or methods described herein or known in the art. For example, the level of periostin can be determined, for example, using the periostin assays described in WO 2012/083132, the entirety of which is incorporated herein by reference. In another example, the level of sST2 can be determined using any of the assays or methods described herein or known in the art, for example, in Example 3.

In other embodiments, the methods of the invention include administering to the patient a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an interleukin-13 (IL-13) binding antagonist, an interleukin-17 (IL-17) binding antagonist, a Janus kinase 1 (JAK1) antagonist, and/or an interleukin-5 (IL-5) binding antagonist, wherein the patient, prior to any administration of an IL-33 axis binding antagonist, has been determined to have a level of sST2 in a sample derived from the patient at or above a reference level. In some instances, the level of sST2 is a level of sST2 protein. In some instances, the sample derived from a patient is a whole blood sample, a serum sample, a plasma sample, or a combination thereof. In some instances, the sample derived from a patient a serum sample. In some instances, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs4742165 (SEQ ID NO: 6). In some instances, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs3771166 (SEQ ID NO: 8). In some instances, the group of individuals is suffering from asthma. In some instances, the reference level of sST2 is a median level. In some instances, the group of individuals is a group of female individuals and the patient is female. In some instances, the group of individuals is a group of male individuals and the patient is male.

In some embodiments, the IL-33 mediated disorder may be an inflammatory condition, an immune disorder, a fibrotic disorder, an eosinophilic disorder, an infection, pain, a central nervous system disorder, a solid tumor, or an ophthalmologic disorder. For example, in some instances, an inflammatory condition may be asthma, airway hyperresponsiveness, airway inflammation, sepsis, septic shock, atopic dermatitis, allergic rhinitis, rheumatoid arthritis, or chronic obstructive pulmonary disease (COPD). In some instances, an immune disorder may be asthma, rheumatoid arthritis, allergy, atopic allergy, anaphylaxis, anaphylactic shock, allergic rhinitis, psoriasis, inflammatory bowel disease (IBD), Crohn's disease, diabetes, or liver disease. In some instances, the fibrotic disease may be idiopathic pulmonary fibrosis (IPF). In some instances, the eosinophilic disorder may be an eosinophil-associated gastrointestinal disorder (EGID). In some instances, the EGID may be eosinophilic esophagitis. In some instances, the infection may be a helminth infection, a protozoan infection, or a viral infection. In some instances, the protozoan infection may be Leishmania major infection. In some instances, the viral infection may be respiratory syncytial virus (RSV) infection or influenza infection. In some instances, the pain may be inflammatory pain. In some instances, the central nervous system disorder may be Alzheimer's disease. In some instances, the solid tumor may be a breast tumor, colon tumor, prostate tumor, lung tumor, kidney tumor, liver tumor, pancreas tumor, stomach tumor, intestinal tumor, brain tumor, bone tumor, or skin tumor. In some embodiments, the ophthalmologic disorder may be age-related macular degeneration (AMD) or retinopathy of the eye. In particular instances, the IL-33-mediated disorder may be asthma, allergic rhinitis, atopic dermatitis, COPD, eosinophilic esophagitis, or pulmonary fibrosis (e.g., IPF). For example, in some instances, the IL-33-mediated disorder is asthma. In other instances, the IL-33-mediated disorder is pulmonary fibrosis (e.g., IPF).

In some instances, the methods of the invention include administering to the patient a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of the following: an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist. For example, the method may include administering a therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, or an IL-5 binding antagonist. In other instances, the method may include administering a therapy comprising at least two agents, for example, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and a tryptase-beta binding antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and a CRTH2 binding antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and an IL-13 binding antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and an IL-17 binding antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and a JAK1 antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and an IL-5 binding antagonist, a tryptase-beta binding antagonist and a CRTH2 binding antagonist, a tryptase-beta binding antagonist and an IL-13 binding antagonist, a tryptase-beta binding antagonist and an IL-17 binding antagonist, a tryptase-beta binding antagonist and a JAK1 antagonist, a tryptase-beta binding antagonist and an IL-5 binding antagonist, a CRTH2 binding antagonist and an IL-13 binding antagonist, a CRTH2 binding antagonist and an IL-17 binding antagonist, a CRTH2 binding antagonist and a JAK1 antagonist, a CRTH2 binding antagonist and an IL-5 binding antagonist, an IL-13 binding antagonist and an IL-17 binding antagonist, an IL-13 binding antagonist and a JAK1 antagonist, an IL-13 binding antagonist and an IL-5 binding antagonist, an IL-17 binding antagonist and a JAK1 antagonist, an IL-17 binding antagonist and an IL-5 binding antagonist, or a JAK1 antagonist and an IL-5 binding antagonist. In other instances, the method may include administering a therapy comprising at least three agents selected from an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist. In other instances, the method may include administering a therapy comprising at least four agents selected from an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist. In other instances, the method may include administering a therapy comprising at least five agents selected from an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist. In yet other instances, the method may include administering a therapy comprising at least six agents selected from an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist. In yet other instances, the method may include administering a therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist.

In some instances, the invention includes an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), has been determined to comprise one, two, three, four, five, six, seven, or more than seven of the following alleles: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In some instances, the invention includes the use of an effective amount of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise one, two, three, four, five, six, seven, or more than seven of the following alleles: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In some instances, the invention includes a composition including an effective amount of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to comprise one, two, three, four, five, six, or seven, or more than seven of the following alleles: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6);

and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6). The composition may be a pharmaceutical composition.

In some instances, the invention includes an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient, prior to any administration of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), has been determined to have a level of sST2 in a sample derived from the patient at or above a reference level. In some instances, the level of sST2 is a level of sST2 protein. In some instances, the sample derived from a patient is a whole blood sample, a serum sample, a plasma sample, or a combination thereof. In some instances, the sample derived from a patient a serum sample. In some instances, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs4742165 (SEQ ID NO: 6). In some instances, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs3771166 (SEQ ID NO: 8). In some instances, the group of individuals is suffering from asthma. In some instances, the reference level of sST2 is a median level. In some instances, the group of individuals is a group of female individuals and the patient is female. In some instances, the group of individuals is a group of male individuals and the patient is male.

In other instances, the invention includes the use of an effective amount of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) in the manufacture of a medicament for use in treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to have a level of sST2 in a sample derived from the patient at or above a reference level. In some instances, the level of sST2 is a level of sST2 protein. In some instances, the sample derived from a patient is a whole blood sample, a serum sample, a plasma sample, or a combination thereof. In some instances, the sample derived from a patient a serum sample. In some instances, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs4742165 (SEQ ID NO: 6). In some instances, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs3771166 (SEQ ID NO: 8). In some instances, the group of individuals is suffering from asthma. In some instances, the reference level of sST2 is a median level. In some instances, the group of individuals is a group of female individuals and the patient is female. In some instances, the group of individuals is a group of male individuals and the patient is male.

In some instances, the invention includes a composition including an effective amount of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) for use in a method of treating a patient suffering from an IL-33-mediated disorder, wherein the patient has been determined to have a level of sST2 in a sample derived from the patient at or above a reference level. In some instances, the level of sST2 is a level of sST2 protein. In some instances, the sample derived from a patient is a whole blood sample, a serum sample, a plasma sample, or a combination thereof. In some instances, the sample derived from a patient a serum sample. In some instances, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs4742165 (SEQ ID NO: 6). In some instances, the reference level of sST2 is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs3771166 (SEQ ID NO: 8). In some instances, the group of individuals is suffering from asthma. In some instances, the reference level of sST2 is a median level. In some instances, the group of individuals is a group of female individuals and the patient is female. In some instances, the group of individuals is a group of male individuals and the patient is male.

Exemplary IL-33 axis binding antagonists include anti-IL-33 antibodies such as ANB-020 (AnaptyxBio Inc.) or any of the antibodies described in WO2014164959, EP1725261, U.S. Pat. No. 8,187,569, WO2011031600, WO2015099175 or WO2015106080, which are each incorporated herein by reference in their entirety; or anti-ST2 antibodies such as AMG-282 (Amgen) or STLM15 (Janssen), or any of the antibodies described in WO2013173761 or WO2013165894, which are each incorporated herein by reference in their entirety.

Exemplary ST2 binding antagonists include ST2-Fc proteins and variants thereof described in WO 2013/173761, WO 2013/165894, and WO 2014/152195, which are each incorporated herein by reference in their entirety.

Exemplary CRTH2 binding antagonists that can be used in the methods of the invention include, for example, AMG-853, AP768, AP-761, MLN6095, and ACT129968.

Exemplary IL-13 binding antagonists that can be used in the methods of the invention include, for example, anti-IL-13 antibodies, including lebrikizumab, 228B/C-1, 228A-4, 227-26, and 227-43. Additional anti-IL-13 antibodies are described, for example, in U.S. Pat. Nos. 7,674,459; 8,067,199; 8,088,618; 8,318,160; and 8,734,797.

Exemplary IL-17 binding antagonists that can be used in the methods of the invention include, for example, anti-IL-17 antibodies (e.g., ixekizumab (LY2439821) and anti-IL-17R antibodies (e.g., brodalumab (AMG-827)).

Exemplary JAK1 antagonists that can be used in the methods of the invention include, for example, small molecule inhibitors (e.g., ruxolitinib, GLPG0634, and GSK2586184).

Exemplary IL-5 binding antagonists that can be used in the methods of the invention include, for example, anti-IL-5 antibodies (e.g., mepolizumab and reslizumab) and anti-IL-SR antibodies.

In some embodiments, the genotype of the patient includes one or more (e.g., 1, 2, 3, 4, 5, 6, 7, or more than 7) of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In other embodiments, the genotype of the patient includes at least two of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

For example, in some instances the genotype of the patient includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and a C allele at polymorphism rs10192036 (SEQ ID NO: 3); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and a C allele at polymorphism rs10192157 (SEQ ID NO: 4); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); a C allele at polymorphism rs10192036 (SEQ ID NO: 3) and a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a C allele at polymorphism rs10192036 (SEQ ID NO: 3) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a C allele at polymorphism rs10192036 (SEQ ID NO: 3) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); a C allele at polymorphism rs10192036 (SEQ ID NO: 3) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); a C allele at polymorphism rs10192157 (SEQ ID NO: 4) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a C allele at polymorphism rs10192157 (SEQ ID NO: 4) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); a C allele at polymorphism rs10192157 (SEQ ID NO: 4) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); a T allele at polymorphism rs10206753 (SEQ ID NO: 5) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); a T allele at polymorphism rs10206753 (SEQ ID NO: 5) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); or a T allele at polymorphism rs4742165 (SEQ ID NO: 6) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In other embodiments, the genotype of the patient includes at least three of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In other embodiments, the genotype of the patient includes at least four of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele ata polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In some embodiments, the genotype of the patient includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); and a T allele at polymorphism rs10206753 (SEQ ID NO: 5). In some embodiments, the genotype of the patient includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); and a T allele at polymorphism rs4742165 (SEQ ID NO: 6). In some embodiments, the genotype of the patient includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In any of the preceding embodiments, the equivalent allele may be in an alternate SNP that is in linkage disequilibrium with one or more of the selected SNPs described herein. In some embodiments, the linkage disequilibrium is a D′ value or an r² value. In some embodiments, the D′ measure between the selected SNP and the alternate SNP is ≥0.60 (e.g., ≥0.60, ≥0.65, ≥0.7, ≥0.75, ≥0.8, ≥0.85, ≥0.9, ≥0.95, or higher). In some embodiments, the D′ value between the selected SNP and the alternate SNP is ≥0.70, ≥0.80, or ≥0.90. In some embodiments, the D′ value between the selected SNP and the alternate SNP is 1.0. In some embodiments, the r² value between the selected SNP and the alternate SNP is ≥0.60 (e.g., ≥0.60, ≥0.65, ≥0.7, ≥0.75, ≥0.8, ≥0.85, ≥0.9, ≥0.95, or higher). In some embodiments the r² value between the selected SNP and the alternate SNP is ≥0.70, ≥0.80, or ≥0.90. In some embodiments, the r² value between the selected SNP and the alternate SNP is 1.0. In some embodiments, the alternate SNP is a SNP designated in Table 3 or 4. In any of the preceding methods, the equivalent allele may be the minor allele or the major allele. In some instances, the equivalent allele is the minor allele. In other instances, the equivalent allele is the major allele.

The therapy (e.g., a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an interleukin-13 (IL-13) binding antagonist, an interleukin-17 (IL-17) binding antagonist, a Janus kinase 1 (JAK1) antagonist, and/or an interleukin-5 (IL-5) binding antagonist) is administered by any suitable means, including parenteral, topical, subcutaneous, intraperitoneal, intrapulmonary, intranasal, and/or intralesional administration. Parenteral infusions include intramuscular, intravenous, intraarterial, intraperitoneal, or subcutaneous administration. Intrathecal administration is also contemplated. In addition, the antagonist may suitably be administered by pulse infusion, e.g., with declining doses of the antagonist.

As a general proposition, the effective amount of the antagonist administered parenterally per dose will be in the range of about 20 mg to about 5000 mg, by one or more dosages. Exemplary dosage regimens for antibodies such as anti-IL-33 antibodies include 100 or 400 mg every 1, 2, 3, or 4 weeks or is administered a dose of about 1, 3, 5, 10, 15, or 20 mg/kg every 1, 2, 3, or 4 weeks. The dose may be administered as a single dose or as multiple doses (e.g., 2 or 3 doses), such as infusions. As noted above, however, these suggested amounts of antagonist are subject to a great deal of therapeutic discretion. The key factor in selecting an appropriate dose and scheduling is the result obtained, as indicated above. In some embodiments, the antagonist is administered as close to the first sign, diagnosis, appearance, or occurrence of the IL-33-mediated disorder as possible. The pharmaceutical composition comprising an antagonist will be formulated, dosed, and administered in a fashion consistent with good medical practice. Factors for consideration in this context include the particular type of IL-33-mediated disorder being treated, the particular mammal being treated, the clinical condition of the individual patient, the cause of the IL-33-mediated disorder, the site of delivery of the agent, possible side-effects, the type of antagonist, the method of administration, the scheduling of administration, and other factors known to medical practitioners. The effective amount of the antagonist to be administered will be governed by such considerations.

An antagonist, for example, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an interleukin-13 (IL-13) binding antagonist, an interleukin-17 (IL-17) binding antagonist, a JAK1 antagonist, or an interleukin-5 (IL-5) binding antagonist, may be combined in a pharmaceutical combination formulation, or dosing regimen as combination therapy, with at least one additional compound having anti-asthma, anti-inflammatory, anti-autoimmune, anti-fibrotic, and/or anti-cancer properties. The at least one additional compound of the pharmaceutical combination formulation or dosing regimen preferably has complementary activities to the antagonist composition such that they do not adversely affect each other.

Suitable dosages for any of the above co-administered agents are those presently used and may be lowered due to the combined action (synergy) of the newly identified agent and other chemotherapeutic agents or treatments.

The combination therapy may provide “synergy” and prove “synergistic”, i.e., the effect achieved when the active ingredients used together is greater than the sum of the effects that results from using the compounds separately. A synergistic effect may be attained when the active ingredients are: (1) co-formulated and administered or delivered simultaneously in a combined, unit dosage formulation; (2) delivered by alternation or in parallel as separate formulations; or (3) by some other regimen. The combined administration includes co-administration, using separate formulations or a single pharmaceutical formulation, and consecutive administration in either order, wherein preferably there is a time period while both (or all) active agents simultaneously exert their biological activities. When delivered in alternation therapy, a synergistic effect may be attained when the compounds are administered or delivered sequentially, e.g., by different injections in separate syringes. In general, during alternation therapy, an effective dosage of each active ingredient is administered sequentially, i.e. serially, whereas in combination therapy, effective dosages of two or more active ingredients are administered together. When administered sequentially, the combination may be administered in two or more administrations.

In the context of the invention, a therapy (e.g., a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist) may be administered in addition to or as a co-therapy or a co-treatment with a further asthma therapy, as described below or known in the art. Moderate asthma is currently treated with a daily inhaled anti-inflammatory-corticosteroid or mast cell inhibitor such as cromolyn sodium or nedocromil plus an inhaled beta2-agonist as needed (3-4 times per day) to relieve breakthrough symptoms or allergen- or exercise-induced asthma. Exemplary inhaled corticosteroids include QVAR®, PULMICORT®, SYMBICORT®, AEROBID®, FLOVENT®, FLONASE®, ADVAIR®, and AZMACORT®. Additional asthma therapies include long acting bronchial dilators (LABD). In certain embodiments, the LABD is a long-acting beta-2 agonist (LABA), leukotriene receptor antagonist (LTRA), long-acting muscarinic antagonist (LAMA), theophylline, or oral corticosteroids (OCS). Exemplary LABDs include SYMBICORT®, ADVAIR®, BROVANA®, FORADIL®, PERFOROMIST™ and SEREVENT®.

In the context of the present invention, the therapy (e.g., a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist, e.g., an ST2-Fc protein), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist) may be administered in addition to or as a co-therapy or a co-treatment with one or more chemotherapeutic agents administered as part of standard chemotherapy regimen for a solid tumor as known in the art. Examples of agents included in such standard chemotherapy regimens include 5-fluorouracil, leucovorin, irinotecan, gemcitabine, erlotinib, capecitabine, taxanes, such as docetaxel and paclitaxel, interferon alpha, vinorelbine, and platinum-based chemotherapeutic agents, such as paclitaxel, carboplatin, cisplatin and oxaliplatin. Examples of co-treatments for metastatic pancreatic cancer include gemcitabine-erlotinib plus bevacizumab at a dosage of 5 mg/kg or 10 mg/kg of body weight given once every two weeks or 7.5 mg/kg or 15 mg/kg of body weight given once every three weeks. Examples of co-treatments for renal cell cancer include interferon alpha plus bevacizumab at a dosage of or 10 mg/kg of body weight given once every two weeks. Further, a patient may be co-treated with a combination of irinotecan, 5-fluorouracil, leucovorin, also referred to as IFL, as, for example, a bolus-IFL, with a combination of oxaliplatin, leucovorin, and 5-fluorouracil, also referred to a FOLFOX4 regimen, or with a combination of capecitabine and oxaliplatin, also referred to as XELOX. Accordingly, in a further embodiment of the invention, the patient suffering from an IL-33-mediated disorder is being treated with one or more chemotherapeutic agents such as 5-fluorouracil, leucovorin, irinotecan, gemcitabine-erlotinib, capecitabine and/or platinum-based chemotherapeutic agents, such as paclitaxel, carboplatin and oxaliplatin. Further, the therapy to be administered may be administered as a co-therapy or a co-treatment with radiotherapy.

The at least one additional compound may be a chemotherapeutic agent, a cytotoxic agent, a cytokine, a growth inhibitory agent, an anti-hormonal agent, and combinations thereof. Such molecules are suitably present in combination in amounts that are effective for the purpose intended. A pharmaceutical composition containing an IL-33 axis binding antagonist (e.g., an anti-IL-33 antibody or an ST2 binding antagonist, e.g., an ST2-Fc protein) may also comprise a therapeutically effective amount of an anti-neoplastic agent, a chemotherapeutic agent a growth inhibitory agent, a cytotoxic agent, or combinations thereof.

III. Diagnostic Methods

The present invention provides methods for identifying and/or monitoring patients at increased risk (i.e., increased susceptibility) of having or developing one or more IL-33-mediated disorders (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)). The methods are useful, inter alia, for increasing the likelihood that administration of a therapy (e.g., a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist) to a patient having an IL-33-mediated disorder will be efficacious. In several embodiments, the methods include determining the genotype at one or more polymorphisms (e.g., IL1RL1 and/or IL33 polymorphisms) in a biological sample from a patient (e.g., the polymorphisms listed in Table 1, Table 2, Table 3, and Table 4). In some embodiments, the invention provides methods for identifying and/or monitoring patients at increased risk (i.e., increased susceptibility) of having or developing one or more IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)) based on the presence and/or expression level of a biomarker of the invention, for example, a polymorphism (e.g., a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1); rs10204137 (SEQ ID NO: 2); rs10192036 (SEQ ID NO: 3); rs10192157 (SEQ ID NO: 4); rs10206753 (SEQ ID NO: 5); rs4742165 (SEQ ID NO: 6); a polymorphism that is in linkage disequilibrium to rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and/or rs4742165 (SEQ ID NO: 6)); periostin; and/or sST2. In some instances, the polymorphism that is in linkage disequilibrium to rs4988956 (SEQ ID NO: 1); rs10204137 (SEQ ID NO: 2); rs10192036 (SEQ ID NO: 3); rs10192157 (SEQ ID NO: 4); and/or rs10206753 (SEQ ID NO: 5) is listed in Table 3. In some instances, the polymorphism that is in linkage disequilibrium to rs4742165 (SEQ ID NO: 6) is listed in Table 4. In some embodiments, the methods include determining the level of one or more biomarkers (e.g., periostin and/or sST2) in a sample derived from the patient.

The methods and assays of the invention provide for convenient, efficient, and potentially cost-effective means to obtain data and information useful in assessing appropriate or effective therapies for treating patients (e.g., patients suffering from an IL-33-mediated disorder). For example, a patient could provide a biological sample (e.g., a blood sample, nasal samples, lung samples, sputum, etc.) before treatment (e.g., administration of a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of the following: an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist) and the sample could be examined by way of various in vitro assays to determine whether the patient's cells are likely to be responsive to the treatment.

The methods may be conducted in a variety of assay formats, including assays detecting genetic information (e.g., DNA or RNA sequencing), genetic or protein expression (such as polymerase chain reaction (PCR) and enzyme immunoassays), and biochemical assays detecting appropriate activity, for example, as described below. The presence of one or more of the alleles for the polymorphisms listed in Table 2 in a sample from a patient correlates with the likelihood that the patient is at risk for an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)). Example 1 shows that the presence of one or more of the alleles for the polymorphisms listed in Table 2 indicates such risk, and thus in various embodiments determination of the genotype at one or more of these polymorphisms in the methods described herein are included in the invention.

In one instance, this invention provides a method of determining whether a patient is at increased risk of an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)), the method including determining the genotype of at least one allele (e.g., 1, 2, 3, 4, 5, 6, 7, or more than 7 alleles) listed in Table 1, Table 2, Table 3, or Table 4 in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises an allele listed in Table 2; a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele in a SNP that is in linkage disequilibrium to rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and/or rs4742165 (SEQ ID NO: 6).

For example, in some embodiments, the method includes determining the genotype at one or more polymorphisms (e.g., 1, 2, 3, 4, 5, 6, 7, or more than 7 polymorphisms) selected from the group consisting of rs4988956 (SEQ ID NO: 1); rs10204137 (SEQ ID NO: 2); rs10192036 (SEQ ID NO: 3); rs10192157 (SEQ ID NO: 4); rs10206753 (SEQ ID NO: 5); rs4742165 (SEQ ID NO: 6); and a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6) in a sample derived from the patient, wherein the patient is at increased risk of asthma if the genotype of the patient comprises (a) a G allele at polymorphism rs4988956 (SEQ ID NO: 1); (b) an A allele at polymorphism rs10204137 (SEQ ID NO: 2); (c) a C allele at polymorphism rs10192036 (SEQ ID NO: 3); (d) a C allele at polymorphism rs10192157 (SEQ ID NO: 4); (e) a T allele at polymorphism rs10206753 (SEQ ID NO: 5); (f) a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or (g) an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In some instances, the patient is at an increased risk of an IL-33-mediated disorder if the genotype of the patient includes one or more (e.g., 1, 2, 3, 4, 5, 6, 7, or more than 7) of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6). In some instances, the genotype of the patient at increased risk of an IL-33-mediated disorder includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5) a T allele at polymorphism rs4742165 (SEQ ID NO: 6); or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In other embodiments, the genotype of a patient at increased risk for an IL-33-mediated disorder includes at least two of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

For example, in some instances the genotype of the patient includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); a G allele at polymorphism rs4988956 (SEQ ID NO: 1) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and a C allele at polymorphism rs10192036 (SEQ ID NO: 3); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and a C allele at polymorphism rs10192157 (SEQ ID NO: 4); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); an A allele at polymorphism rs10204137 (SEQ ID NO: 2) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); a C allele at polymorphism rs10192036 (SEQ ID NO: 3) and a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a C allele at polymorphism rs10192036 (SEQ ID NO: 3) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a C allele at polymorphism rs10192036 (SEQ ID NO: 3) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); a C allele at polymorphism rs10192036 (SEQ ID NO: 3) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); a C allele at polymorphism rs10192157 (SEQ ID NO: 4) and a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a C allele at polymorphism rs10192157 (SEQ ID NO: 4) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); a C allele at polymorphism rs10192157 (SEQ ID NO: 4) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); a T allele at polymorphism rs10206753 (SEQ ID NO: 5) and a T allele at polymorphism rs4742165 (SEQ ID NO: 6); a T allele at polymorphism rs10206753 (SEQ ID NO: 5) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); or a T allele at polymorphism rs4742165 (SEQ ID NO: 6) and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In other embodiments, the genotype of a patient at risk for an IL-33-mediated disorder includes at least three of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In other embodiments, the genotype of the patient includes at least four of the following: a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In other embodiments, the genotype of the patient at risk for an IL-33-mediated disorder includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); and a T allele at polymorphism rs10206753 (SEQ ID NO: 5). In some embodiments, the genotype of the patient includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); and a T allele at polymorphism rs4742165 (SEQ ID NO: 6). In some embodiments, the genotype of the patient includes a G allele at polymorphism rs4988956 (SEQ ID NO: 1); an A allele at polymorphism rs10204137 (SEQ ID NO: 2); a C allele at polymorphism rs10192036 (SEQ ID NO: 3); a C allele at polymorphism rs10192157 (SEQ ID NO: 4); a T allele at polymorphism rs10206753 (SEQ ID NO: 5); a T allele at polymorphism rs4742165 (SEQ ID NO: 6); and an equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6).

In another embodiment, the present invention provides a method of determining whether a patient suffering from an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)) is likely to respond to treatment comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of the following: an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist, the method comprising: (a) determining in a sample derived from a patient suffering from an IL-33-mediated disorder the genotype at one or more polymorphisms (e.g., 1, 2, 3, 4, 5, 6, 7, or more than 7 polymorphisms) selected from the group consisting of rs4988956 (SEQ ID NO: 1); rs10204137 (SEQ ID NO: 2); rs10192036 (SEQ ID NO: 3); rs10192157 (SEQ ID NO: 4); rs10206753 (SEQ ID NO: 5); rs4742165 (SEQ ID NO: 6); and a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); and (b) identifying the patient as likely to respond to the treatment based on the genotype, wherein the presence of: (i) each G allele at polymorphism rs4988956 (SEQ ID NO: 1); (ii) each A allele at polymorphism rs10204137 (SEQ ID NO: 2); (iii) each C allele at polymorphism rs10192036 (SEQ ID NO: 3); (iv) each C allele at polymorphism rs10192157 (SEQ ID NO: 4); (v) each T allele at polymorphism rs10206753 (SEQ ID NO: 5); (vi) each T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or (vii) each equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6) indicates that the patient has an increased likelihood of being responsive to the treatment. In some instances, the method further includes determining the level of periostin in a sample derived from the patient. In these instances, the method may further include informing the patient that they have an increased likelihood of being responsive to treatment comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist if the level of periostin in the sample is at, below, or above a reference level of periostin.

In another embodiment, the present invention provides a method of improving the therapeutic efficacy of an IL-33-mediated disorder therapy for a patient suffering from an IL-33-mediated disorder, the method including: (a) determining in a sample derived from a patient suffering from asthma the genotype at one or more (e.g., 1, 2, 3, 4, 5, 6, 7, or more than 7) polymorphisms selected from the group consisting of rs4988956 (SEQ ID NO: 1); rs10204137 (SEQ ID NO: 2); rs10192036 (SEQ ID NO: 3); rs10192157 (SEQ ID NO: 4); rs10206753 (SEQ ID NO: 5); rs4742165 (SEQ ID NO: 6); and a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6); and (b) identifying the patient as more suitably treated by the addition of one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist to the IL-33-mediated disorder therapy based on the genotype, wherein the presence of: (i) each G allele at polymorphism rs4988956 (SEQ ID NO: 1); (ii) each A allele at polymorphism rs10204137 (SEQ ID NO: 2); (iii) each C allele at polymorphism rs10192036 (SEQ ID NO: 3); (iv) each C allele at polymorphism rs10192157 (SEQ ID NO: 4); (v) each T allele at polymorphism rs10206753 (SEQ ID NO: 5); (vi) each T allele at polymorphism rs4742165 (SEQ ID NO: 6); and/or (vii) each equivalent allele at a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6) indicates an increased likelihood of improving the therapeutic efficacy of an IL-33-mediated disorder therapy by the addition of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist. In some instances, the method further includes determining the level of periostin in a sample derived from the patient. In these instances, the method may further include informing the patient that they have an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist if the level of periostin in the sample is at, below, or above a reference level of periostin.

In any of the preceding embodiments, the equivalent allele may be in an alternate SNP that is in linkage disequilibrium with one or more of the selected SNPs described herein. In some embodiments, the linkage disequilibrium is a D′ value or an r² value. In some embodiments, the D′ measure between the selected SNP and the alternate SNP is ≥0.60 (e.g., ≥0.60, ≥0.65, ≥0.7, ≥0.75, ≥0.8, ≥0.85, ≥0.9, ≥0.95, or higher). In some embodiments, the D′ value between the selected SNP and the alternate SNP is ≥0.70, ≥0.80, or ≥0.90. In some embodiments, the D′ value between the selected SNP and the alternate SNP is 1.0. In some embodiments, the r² value between the selected SNP and the alternate SNP is ≥0.60 (e.g., ≥0.60, ≥0.65, ≥0.7, ≥0.75, ≥0.8, ≥0.85, ≥0.9, ≥0.95, or higher). In some embodiments the r² value between the selected SNP and the alternate SNP is ≥0.70, ≥0.80, or ≥0.90. In some embodiments, the r² value between the selected SNP and the alternate SNP is 1.0. In some embodiments, the alternate SNP is a SNP designated in Table 3 or 4. In any of the preceding methods, the equivalent allele may be the minor allele or the major allele. In some instances, the equivalent allele is the minor allele. In other instances, the equivalent allele is the major allele.

In any of the above diagnostic methods, the method may further include administering to the patient a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of the following: an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist. For example, the method may further include administering a therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, or an IL-5 binding antagonist. In other instances, the method may further include administering a therapy comprising at least two agents, for example, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and a tryptase-beta binding antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and a CRTH2 binding antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and an IL-13 binding antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and an IL-17 binding antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and a JAK1 antagonist, an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and an IL-5 binding antagonist, a tryptase-beta binding antagonist and a CRTH2 binding antagonist, a tryptase-beta binding antagonist and an IL-13 binding antagonist, a tryptase-beta binding antagonist and an IL-17 binding antagonist, a tryptase-beta binding antagonist and a JAK1 antagonist, a tryptase-beta binding antagonist and an IL-5 binding antagonist, a CRTH2 binding antagonist and an IL-13 binding antagonist, a CRTH2 binding antagonist and an IL-17 binding antagonist, a CRTH2 binding antagonist and a JAK1 antagonist, a CRTH2 binding antagonist and an IL-5 binding antagonist, an IL-13 binding antagonist and an IL-17 binding antagonist, an IL-13 binding antagonist and a JAK1 antagonist, an IL-13 binding antagonist and an IL-5 binding antagonist, an IL-17 binding antagonist and a JAK1 antagonist, an IL-17 binding antagonist and an IL-5 binding antagonist, or a JAK1 antagonist and an IL-5 binding antagonist. In other instances, the method may further include administering a therapy comprising at least three agents selected from an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist. In other instances, the method may further include administering a therapy comprising at least four agents selected from an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist. In other instances, the method may further include administering a therapy comprising at least five agents selected from an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist. In yet other instances, the method may further include administering a therapy comprising at least six agents selected from an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist. In yet other instances, the method may include administering a therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 binding antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and an IL-5 binding antagonist.

In yet other instances, the present invention provides a method of selecting a therapy for a patient having an IL-33-mediated disorder, the method comprising: (a) determining the level of periostin in a sample derived from the patient; (b) comparing the level of periostin in the sample derived from the patient to a reference level of periostin, wherein a level of periostin in the sample at or below the reference level of periostin identifies a patient who is likely to respond to treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist); and (c) selecting a therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) if the patient is identified as likely to respond to treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) and recommending to the patient the selected therapy comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist). In some embodiments, the method further includes administering an asthma therapy including an antagonist selected from one or more of an IL-33 binding antagonist (e.g., an anti-IL-33 antibody or antigen-binding fragment thereof), a ST2 binding antagonist (e.g., an ST2-Fc protein, an anti-ST2 antibody, or antigen-binding fragment thereof), and/or an IL-1 RAcP binding antagonist (e.g., an anti-IL1 RAcP antibody). For example, in some embodiments, the method further includes administering an IL-33 binding antagonist, a ST2 binding antagonist, or an IL1 RAcP binding antagonist. In some embodiments, the method further includes administering at least two of the following: an IL-33 binding antagonist, a ST2 binding antagonist, and an IL1 RAcP binding antagonist (e.g., an IL-33 binding antagonist and an ST2 binding antagonist (e.g., an ST2-Fc protein); an IL-33 binding antagonist and an IL1RAcP binding antagonist; or an ST2 binding antagonist (e.g., an ST2-Fc protein) and an IL1 RAcP binding antagonist). In some embodiments, the method further includes administering an IL-33 binding antagonist, a ST2 binding antagonist (e.g., an ST2-Fc protein), and an IL1 RAcP binding antagonist.

In other instances, the present invention provides a method of determining whether a patient is at increased risk of an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)), the method comprising: (a) determining the level of sST2 in a sample derived from the patient; and (b) comparing the level of sST2 in the sample derived from the patient to a reference level of sST2, wherein the patient is at an increased risk of an IL-33-mediated disorder if the level of sST2 in the sample derived from the patient is at or above the reference level. In some instances, the method further includes administering a therapy comprising a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of the following: an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist. In some instances, the method further includes determining the level of periostin in a sample derived from the patient. In these instances, the method may further include informing the patient that they have an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist if the level of periostin in the sample is at, below, or above a reference level of periostin.

In yet another instance, the present invention provides a method of selecting a therapy for a patient having an IL-33 mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)), the method comprising: (a) determining the level of sST2 in a sample derived from the patient; (b) comparing the level of sST2 in the sample derived from the patient to a reference level of sST2; and (c) selecting a therapy comprising an IL-33 axis binding antagonist if the level of sST2 in the sample is at or above the reference level. In some instances, the method further includes administering a therapy comprising a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of the following: an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist. In some instances, the method further includes determining the level of periostin in a sample derived from the patient. In these instances, the method may further include informing the patient that they have an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist if the level of periostin in the sample is at, below, or above a reference level of periostin.

In another instance, the present invention provides a method of determining whether a patient suffering from an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist, the method comprising: (a) determining the level of sST2 in a sample derived from the patient; (b) comparing the level of sST2 in the sample derived from the patient to a reference level of sST2; and (c) identifying the patient as likely to respond to treatment comprising an IL-33 axis binding antagonist based on the level of sST2 in the sample derived from the patient, wherein the patient has an increased likelihood of being responsive to treatment comprising an IL-33 axis binding antagonist if the level of sST2 in the sample is at or above the reference level. In some instances, the method further includes administering a therapy comprising a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of the following: an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist. In some instances, the method further includes determining the level of periostin in a sample derived from the patient. In these instances, the method may further include informing the patient that they have an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist if the level of periostin in the sample is at, below, or above a reference level of periostin.

In another instance, the present invention provides a method for assessing a treatment response of a patient treated with an IL-33 axis binding antagonist, the method comprising: (a) determining the level of sST2 in a sample derived from the patient at a time point during or after administration of the IL-33 axis binding antagonist; and (b) maintaining, adjusting, or stopping the treatment of the patient based on a comparison of the level of sST2 in the sample derived from the patient with a reference level of sST2, wherein a change in the level of sST2 in the sample derived from the patient compared to the reference level is indicative of a response to treatment with the IL-33 axis binding antagonist. In some embodiments, the change is an increase in the level of sST2 and treatment is maintained. In some embodiments, the change is an increase in the level of sST2 and treatment is changed to a different therapeutic agent (e.g., a different IL-33 axis binding antagonist). In some embodiments, the change is an increase in the level of sST2 and treatment is changed by increasing the dose of the IL-33 binding antagonist or increasing the frequency of dosing the IL-33 binding antagonist. In other embodiments, the change is a decrease in the level of sST2 and treatment is maintained. In other embodiments, the change is a decrease in the level of sST2 and treatment is decreased. In other embodiments, the change is a decrease in the level of sST2 and treatment is changed by decreasing the dose of the IL-33 binding antagonist or descreasing the frequency of dosing the IL-33 binding antagonist. In other embodiments, the change is a decrease in the level of sST2 and treatment is stopped. In some instances, the method further includes determining the level of periostin in a sample derived from the patient. In these instances, the method may further include informing the patient that they have an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist if the level of periostin in the sample is at, below, or above a reference level of periostin.

In yet another instance, the present invention provides a method for monitoring the response of a patient treated with an IL-33 axis binding antagonist, the method comprising: (a) determining the level of sST2 in a sample derived from the patient at a time point during or after administration of the IL-33 axis binding antagonist; and (b) comparing the level of sST2 in the sample derived from the patient with a reference level of sST2, thereby monitoring the response in the patient undergoing treatment with the IL-33 axis binding antagonist. In some instances, the method further includes determining the level of periostin in a sample derived from the patient. In these instances, the method may further include informing the patient that they have an increased likelihood of being responsive to treatment with an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist if the level of periostin in the sample is at, below, or above a reference level of periostin.

In any of the preceding methods, the level of sST2 may be, for example, a level of sST2 protein or a level of sST2 nucleic acid (e.g., mRNA). In some embodiments, the level is a level of sST2 protein. In any of the preceding methods, the sample derived from the patient may be a whole blood sample, a serum sample, a plasma sample, or a combination thereof. In some embodiments, the sample derived from the patient may be a serum sample.

In any of the preceding methods, in some embodiments, the level of sST2 in the sample derived from the patient may be at least 1.1-fold, 1.2-fold, 1.3-fold, 1.4-fold, 1.5-fold, 1.6-fold, 1.7-fold, 1.8-fold, 1.9-fold, 2-fold, 2.2-fold, 2.4-fold, 2.6-fold, 2.8-fold, 3-fold, 3.5-fold, 4-fold, 4.5-fold, 5-fold, 5.5-fold, 6-fold, 6.5-fold, 7-fold, 7.5-fold, 8-fold, 9-fold, 10-fold, 15-fold, or 20-fold above the reference level. In any of the preceding methods, in some embodiments, the level of sST2 in the sample derived from the patient may be at least 1.1-fold, 1.2-fold, 1.3-fold, 1.4-fold, 1.5-fold, 1.6-fold, 1.7-fold, 1.8-fold, 1.9-fold, 2-fold, 2.2-fold, 2.4-fold, 2.6-fold, 2.8-fold, 3-fold, 3.5-fold, 4-fold, 4.5-fold, 5-fold, 5.5-fold, 6-fold, 6.5-fold, 7-fold, 7.5-fold, 8-fold, 9-fold, 10-fold, 15-fold, or 20-fold below the reference level.

Any suitable reference level of sST2 may be used in any of the preceding methods. In any of the preceding methods, the reference level may be is a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs4742165 (SEQ ID NO: 6). In any of the preceding methods, the reference level of sST2 may be a level of sST2 determined from a group of individuals, wherein each member of the group has a genotype comprising two G alleles at polymorphism rs3771166 (SEQ ID NO: 8). In some instances, the group of individuals is suffering from asthma. In some embodiments, the reference level of sST2 may be an average, a median, or any suitable value. In some instances, reference level is a median level. In some instances, the group of individuals is a group of female individuals and the patient is female. In other instances, the group of individuals is a group of male individuals and the patient is male. In any of the preceding methods, the reference level of sST2 may be determined in an individual at an earlier timepoint, e.g., before administration of an IL-33 binding antagonist or at an earlier timepoint during treatment with an IL-33 binding antagonist.

In some instances, any of the preceding methods further includes administering a therapy comprising a therapy comprising one or more (e.g., 1, 2, 3, 4, 5, 6, or 7) of the following: an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist. In some embodiments, the IL-33 axis binding antagonist is an IL-33 binding antagonist, an ST2 binding antagonist, or an IL-1 RAcP binding antagonist.

In some instances, any of the preceding methods further includes administering an antagonist selected from one or more of an IL-33 binding antagonist (e.g., an anti-IL-33 antibody or antigen-binding fragment thereof), a ST2 binding antagonist (e.g., an ST2-Fc protein, an anti-ST2 antibody, or antigen-binding fragment thereof), and/or an IL-1 RAcP binding antagonist (e.g., an anti-IL1 RAcP antibody) based on the level of sST2 in a sample derived from the patient being at or above a reference level. For example, in some embodiments, the method further includes administering an IL-33 binding antagonist, a ST2 binding antagonist, or an IL1 RAcP binding antagonist. In some embodiments, the method further includes administering at least two of the following: an IL-33 binding antagonist, a ST2 binding antagonist, and an IL1 RAcP binding antagonist (e.g., an IL-33 binding antagonist and an ST2 binding antagonist (e.g., an ST2-Fc protein); an IL-33 binding antagonist and an IL1 RAcP binding antagonist; or an ST2 binding antagonist (e.g., an ST2-Fc protein) and an IL1RAcP binding antagonist). In some embodiments, the method further includes administering an IL-33 binding antagonist, a ST2 binding antagonist (e.g., an ST2-Fc protein), and an IL1 RAcP binding antagonist.

One of skill in the medical arts, particularly pertaining to the application of diagnostic tests and treatment with therapeutics, will recognize that biological systems are somewhat variable and not always entirely predictable, and thus many good diagnostic tests or therapeutics are occasionally ineffective. Thus, it is ultimately up to the judgment of the attending physician to determine the most appropriate course of treatment for an individual patient, based upon test results, patient condition and history, and his or her own experience. There may even be occasions, for example, when a physician will choose to treat a patient with an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) even when a patient is not determined to be at increased risk of an IL-33-mediated disorder (e.g., asthma and/or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)), based on data from diagnostic tests or from other criteria, particularly if all or most of the other obvious treatment options have failed, or if some synergy is anticipated when given with another treatment.

The present invention also provides a method of identifying a biomarker that is useful for monitoring sensitivity or responsiveness to an IL-33 axis binding antagonist, such as an anti-IL-33 antibody or an ST2 binding antagonist, the method comprising: (a) measuring the level of a candidate biomarker in samples from patients with IL-33-mediated disorders obtained before any dose of an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) is administered to the patients, wherein an change (i.e., an increase or decrease) in the expression of the candidate biomarker relative to a control indicates that the biomarker is diagnostic for more effective treatment of the IL-33-mediated disorder with an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist). In some embodiments, the biomarker is genetic and its expression is analyzed.

IV. Detection of Nucleic Acid Polymorphisms

In several embodiments, the methods of treatment and diagnosis provided by the invention involve determination of the genotype of a patient at one or more polymorphisms (e.g., polymorphisms in IL1RL1 described in Tables 1 and 2). Detection techniques for evaluating nucleic acids for the presence of a SNP involve procedures well known in the field of molecular genetics. Many, but not all, of the methods involve amplification of nucleic acids. Ample guidance for performing amplification is provided in the art. Exemplary references include manuals such as Erlich, ed., PCR Technology: Principles and Applications for DNA Amplification, Freeman Press, 1992; Innis et al. eds., PCR Protocols: A Guide to Methods and Applications, Academic Press, 1990; Ausubel, ed., Current Protocols in Molecular Biology, 1994-1999, including supplemental updates through April 2004; and Sambrook et al. eds., Molecular Cloning, A Laboratory Manual, 2001. General methods for detection of single nucleotide polymorphisms are disclosed in Kwok, ed., Single Nucleotide Polymorphisms: Methods and Protocols, Humana Press, 2003.

Although the methods typically employ PCR steps, other amplification protocols may also be used. Suitable amplification methods include ligase chain reaction (see, e.g., Wu et al. Genomics 4:560-569, 1988); strand displacement assay (see, e.g., Walker et al. Proc. Natl. Acad. Sci. USA 89:392-396, 1992; U.S. Pat. No. 5,455,166); and several transcription-based amplification systems, including the methods described in U.S. Pat. Nos. 5,437,990; 5,409,818; and 5,399,491; the transcription amplification system (TAS) (Kwoh et al. Proc. Natl. Acad. Sci. USA 86:1173-1177, 1989); and self-sustained sequence replication (3SR) (Guatelli et al. Proc. Natl. Acad. Sci. USA 87:1874-1878, 1990; WO 1992/08800). Alternatively, methods that amplify the probe to detectable levels can be used, such as Qβ-replicase amplification (Kramer et al. Nature 339:401-402, 1989; Lomeli et al. Clin. Chem. 35:1826-1831, 1989). A review of known amplification methods is provided, for example, by Abramson et al. Curr. Opin. Biotech. 4:41-47, 1993.

Detection of the genotype, haplotype, SNP, microsatellite, or other polymorphism of an individual can be performed using oligonucleotide primers and/or probes. Oligonucleotides can be prepared by any suitable method, usually chemical synthesis. Oligonucleotides can be synthesized using commercially available reagents and instruments. Alternatively, they can be purchased through commercial sources. Methods of synthesizing oligonucleotides are well known in the art (see, e.g., Narang et al. Meth. Enzymol. 68:90-99, 1979; Brown et al. Meth. Enzymol. 68:109-151, 1979; Beaucage et al. Tetra. Lett. 22:1859-1862, 1981; and the solid support method of U.S. Pat. No. 4,458,066). In addition, modifications to the above-described methods of synthesis may be used to desirably impact enzyme behavior with respect to the synthesized oligonucleotides. For example, incorporation of modified phosphodiester linkages (e.g., phosphorothioate, methylphosphonates, phosphoamidate, or boranophosphate) or linkages other than a phosphorous acid derivative into an oligonucleotide may be used to prevent cleavage at a selected site. In addition, the use of 2′-amino modified sugars tends to favor displacement over digestion of the oligonucleotide when hybridized to a nucleic acid that is also the template for synthesis of a new nucleic acid strand.

The genotype of an individual (e.g., a patient suffering from or at risk for an IL-33-mediated disorder, for example, asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)) can be determined using many detection methods that are well known in the art. Most assays entail one of several general protocols: hybridization using allele-specific oligonucleotides, primer extension, allele-specific ligation, sequencing, or electrophoretic separation techniques, e.g., single-stranded conformational polymorphism (SSCP) and heteroduplex analysis. Exemplary assays include 5′-nuclease assays, template-directed dye-terminator incorporation, molecular beacon allele-specific oligonucleotide assays, single-base extension assays, and SNP scoring by real-time pyrophosphate sequences. Analysis of amplified sequences can be performed using various technologies such as microchips, fluorescence polarization assays, and MALDI-TOF (matrix assisted laser desorption ionization-time of flight) mass spectrometry. Two methods that can also be used are assays based on invasive cleavage with Flap nucleases and methodologies employing padlock probes.

Determination of the presence or absence of a particular allele is generally performed by analyzing a nucleic acid sample that is obtained from the individual to be analyzed. Often, the nucleic acid sample comprises genomic DNA. The genomic DNA is typically obtained from blood samples, but may also be obtained from other cells or tissues.

It is also possible to analyze RNA samples for the presence of polymorphic alleles. For example, mRNA can be used to determine the genotype of an individual at one or more polymorphic sites. In this case, the nucleic acid sample is obtained from cells in which the target nucleic acid is expressed, e.g., T helper-2 (Th2) cells and mast cells. Such an analysis can be performed by first reverse-transcribing the target RNA using, for example, a viral reverse transcriptase, and then amplifying the resulting cDNA; or using a combined high-temperature reverse-transcription-polymerase chain reaction (RT-PCR), as described in U.S. Pat. Nos. 5,310,652; 5,322,770; 5,561,058; 5,641,864; and 5,693,517.

The sample may be taken from a patient who is suspected of having, or is diagnosed as having an IL-33-mediated disorder, and hence is likely in need of treatment, or from a normal individual who is not suspected of having any disorder. For determination of genotypes, patient samples, such as those containing cells, or nucleic acids produced by these cells, may be used in the methods of the present invention. Bodily fluids or secretions useful as samples in the present invention include, e.g., blood, urine, saliva, stool, pleural fluid, lymphatic fluid, sputum, ascites, prostatic fluid, cerebrospinal fluid (CSF), or any other bodily secretion or derivative thereof. The word blood is meant to include whole blood, plasma, serum, or any derivative of blood. Sample nucleic acid for use in the methods described herein can be obtained from any cell type or tissue of a subject. For example, a subject's bodily fluid (e.g. blood) can be obtained by known techniques. Alternatively, nucleic acid tests can be performed on dry samples (e.g., hair or skin).

The sample may be frozen, fresh, fixed (e.g., formalin fixed), centrifuged, and/or embedded (e.g., paraffin embedded), etc. The cell sample can, of course, be subjected to a variety of well-known post-collection preparative and storage techniques (e.g., nucleic acid and/or protein extraction, fixation, storage, freezing, ultrafiltration, concentration, evaporation, centrifugation, etc.) prior to assessing the genotype in the sample. Likewise, biopsies may also be subjected to post-collection preparative and storage techniques, e.g., fixation.

Frequently used methodologies for analysis of nucleic acid samples to detect SNPs which are useful in the present invention are briefly described below. However, any method known in the art can be used in the invention to detect the presence of single nucleotide substitutions.

a. Allele-Specific Hybridization

This technique, also commonly referred to as allele-specific oligonucleotide hybridization (ASO) (e.g., Stoneking et al. Am. J. Hum. Genet. 48:70-382, 1991; Saiki et al. Nature 324, 163-166, 1986; EP 235,726; and WO 1989/11548), relies on distinguishing between two DNA molecules differing by one base by hybridizing an oligonucleotide probe that is specific for one of the variants to an amplified product obtained from amplifying the nucleic acid sample. This method typically employs short oligonucleotides, e.g., 15-20 bases in length. The probes are designed to differentially hybridize to one variant versus another. Principles and guidance for designing such probe is available in the art, for example, in the references cited herein. Hybridization conditions should be sufficiently stringent that there is a significant difference in hybridization intensity between alleles, and producing an essentially binary response, whereby a probe hybridizes to only one of the alleles. Some probes are designed to hybridize to a segment of target DNA such that the polymorphic site aligns with a central position (e.g., in a 15-base oligonucleotide at the 7 position; in a 16-based oligonucleotide at either the 8 or 9 position) of the probe, but this design is not required.

The amount and/or presence of an allele can be determined by measuring the amount of allele-specific oligonucleotide that is hybridized to the sample. Typically, the oligonucleotide is labeled with a label such as a fluorescent label. For example, an allele-specific oligonucleotide is applied to immobilized oligonucleotides representing SNP sequences. After stringent hybridization and washing conditions, fluorescence intensity is measured for each SNP oligonucleotide.

In one embodiment, the nucleotide present at the polymorphic site is identified by hybridization under sequence-specific hybridization conditions with an oligonucleotide probe or primer exactly complementary to one of the polymorphic alleles in a region encompassing the polymorphic site. The probe or primer hybridizing sequence and sequence-specific hybridization conditions are selected such that a single mismatch at the polymorphic site destabilizes the hybridization duplex sufficiently so that it is effectively not formed. Thus, under sequence-specific hybridization conditions, stable duplexes will form only between the probe or primer and the exactly complementary allelic sequence. Thus, oligonucleotides from about 10 to about 35 nucleotides in length, usually from about 15 to about 35 nucleotides in length, which are exactly complementary to an allele sequence in a region which encompasses the polymorphic site are within the scope of the invention.

In an alternative embodiment, the nucleotide present at the polymorphic site is identified by hybridization under sufficiently stringent hybridization conditions with an oligonucleotide substantially complementary to one of the SNP alleles in a region encompassing the polymorphic site, and exactly complementary to the allele at the polymorphic site. Because mismatches which occur at non-polymorphic sites are mismatches with both allele sequences, the difference in the number of mismatches in a duplex formed with the target allele sequence and in a duplex formed with the corresponding non-target allele sequence is the same as when an oligonucleotide exactly complementary to the target allele sequence is used. In this embodiment, the hybridization conditions are relaxed sufficiently to allow the formation of stable duplexes with the target sequence, while maintaining sufficient stringency to preclude the formation of stable duplexes with non-target sequences. Under such sufficiently stringent hybridization conditions, stable duplexes will form only between the probe or primer and the target allele. Thus, oligonucleotides from about 10 to about 35 nucleotides in length, usually from about 15 to about 35 nucleotides in length, which are substantially complementary to an allele sequence in a region which encompasses the polymorphic site, and are exactly complementary to the allele sequence at the polymorphic site, are within the scope of the invention.

The use of substantially, rather than exactly, complementary oligonucleotides may be desirable in assay formats in which optimization of hybridization conditions is limited. For example, in a typical multi-target immobilized-oligonucleotide assay format, probes or primers for each target are immobilized on a single solid support. Hybridizations are carried out simultaneously by contacting the solid support with a solution containing target DNA. As all hybridizations are carried out under identical conditions, the hybridization conditions cannot be separately optimized for each probe or primer. The incorporation of mismatches into a probe or primer can be used to adjust duplex stability when the assay format precludes adjusting the hybridization conditions. The effect of a particular introduced mismatch on duplex stability is well known, and the duplex stability can be routinely both estimated and empirically determined, as described above. Suitable hybridization conditions, which depend on the exact size and sequence of the probe or primer, can be selected empirically using the guidance provided herein and well known in the art. The use of oligonucleotide probes or primers to detect single base pair differences in sequence is described in, for example, Conner et al. Proc. Natl. Acad. Sci. USA 80:278-282, 1983, and U.S. Pat. Nos. 5,468,613 and 5,604,099.

The proportional change in stability between a perfectly matched and a single-base mismatched hybridization duplex depends on the length of the hybridized oligonucleotides. Duplexes formed with shorter probe sequences are destabilized proportionally more by the presence of a mismatch. Oligonucleotides between about 15 and about 35 nucleotides in length are often used for sequence-specific detection. Furthermore, because the ends of a hybridized oligonucleotide undergo continuous random dissociation and re-annealing due to thermal energy, a mismatch at either end destabilizes the hybridization duplex less than a mismatch occurring internally. For discrimination of a single base pair change in target sequence, the probe sequence is selected which hybridizes to the target sequence such that the polymorphic site occurs in the interior region of the probe.

The above criteria for selecting a probe sequence that hybridizes to a specific allele apply to the hybridizing region of the probe, i.e., that part of the probe which is involved in hybridization with the target sequence. A probe may be bound to an additional nucleic acid sequence, such as a poly-T tail used to immobilize the probe, without significantly altering the hybridization characteristics of the probe. One of skill in the art will recognize that for use in the present methods, a probe bound to an additional nucleic acid sequence which is not complementary to the target sequence and, thus, is not involved in the hybridization, is essentially equivalent to the unbound probe.

Suitable assay formats for detecting hybrids formed between probes and target nucleic acid sequences in a sample are known in the art and include the immobilized target (dot-blot) format and immobilized probe (reverse dot-blot or line-blot) assay formats. Dot blot and reverse dot blot assay formats are described in U.S. Pat. Nos. 5,310,893; 5,451,512; 5,468,613; and 5,604,099.

In a dot-blot format, amplified target DNA is immobilized on a solid support, such as a nylon membrane. The membrane-target complex is incubated with labeled probe under suitable hybridization conditions, unhybridized probe is removed by washing under suitably stringent conditions, and the membrane is monitored for the presence of bound probe.

In the reverse dot-blot (or line-blot) format, the probes are immobilized on a solid support, such as a nylon membrane or a microtiter plate. The target DNA is labeled, typically during amplification by the incorporation of labeled primers. One or both of the primers can be labeled. The membrane-probe complex is incubated with the labeled amplified target DNA under suitable hybridization conditions, unhybridized target DNA is removed by washing under suitably stringent conditions, and the membrane is monitored for the presence of bound target DNA. A reverse line-blot detection assay is described in the example.

An allele-specific probe that is specific for one of the polymorphism variants is often used in conjunction with the allele-specific probe for the other polymorphism variant. In some embodiments, the probes are immobilized on a solid support and the target sequence in an individual is analyzed using both probes simultaneously. Examples of nucleic acid arrays are described by WO 95/11995. The same array or a different array can be used for analysis of characterized polymorphisms. WO 95/11995 also describes subarrays that are optimized for detection of variant forms of a pre-characterized polymorphism. Such a subarray can be used in detecting the presence of the polymorphisms described herein.

b. Allele-Specific Primers

Polymorphisms are also commonly detected using allele-specific amplification or primer extension methods. These reactions typically involve use of primers that are designed to specifically target a polymorphism via a mismatch at the 3′-end of a primer. The presence of a mismatch affects the ability of a polymerase to extend a primer when the polymerase lacks error-correcting activity. For example, to detect an allele sequence using an allele-specific amplification- or extension-based method, a primer complementary to one allele of a polymorphism is designed such that the 3′-terminal nucleotide hybridizes at the polymorphic position. The presence of the particular allele can be determined by the ability of the primer to initiate extension. If the 3′-terminus is mismatched, the extension is impeded.

In some embodiments, the primer is used in conjunction with a second primer in an amplification reaction. The second primer hybridizes at a site unrelated to the polymorphic position. Amplification proceeds from the two primers leading to a detectable product signifying the particular allelic form is present. Allele-specific amplification- or extension-based methods are described in, for example, WO 93/22456; U.S. Pat. Nos. 5,137,806; 5,595,890; 5,639,611; and U.S. Pat. No. 4,851,331.

Using allele-specific amplification-based genotyping, identification of the alleles requires only detection of the presence or absence of amplified target sequences. Methods for the detection of amplified target sequences are well known in the art. For example, gel electrophoresis and probe hybridization assays described are often used to detect the presence of nucleic acids.

In an alternative probe-less method, the amplified nucleic acid is detected by monitoring the increase in the total amount of double-stranded DNA in the reaction mixture, is described, e.g. in U.S. Pat. No. 5,994,056; and European Patent Publication Nos. 487,218 and 512,334. The detection of double-stranded target DNA relies on the increased fluorescence various DNA-binding dyes, e.g., SYBR Green, exhibit when bound to double-stranded DNA.

As appreciated by one in the art, allele-specific amplification methods can be performed in reactions that employ multiple allele-specific primers to target particular alleles. Primers for such multiplex applications are generally labeled with distinguishable labels or are selected such that the amplification products produced from the alleles are distinguishable by size. Thus, for example, both alleles in a single sample can be identified using a single amplification by gel analysis of the amplification product.

As in the case of allele-specific probes, an allele-specific oligonucleotide primer may be exactly complementary to one of the polymorphic alleles in the hybridizing region or may have some mismatches at positions other than the 3′-terminus of the oligonucleotide, which mismatches occur at non-polymorphic sites in both allele sequences.

c. Detectable Probes

i) 5′-Nuclease Assay Probes

Genotyping can also be performed using a “TAQMAN®” or “5′-nuclease assay,” as described in U.S. Pat. Nos. 5,210,015; 5,487,972; and 5,804,375; and Holland et al. Proc. Natl. Acad. Sci. USA 88:7276-7280, 1988. In the TAQMAN® assay, labeled detection probes that hybridize within the amplified region are added during the amplification reaction. The probes are modified so as to prevent the probes from acting as primers for DNA synthesis. The amplification is performed using a DNA polymerase having 5′- to 3′-exonuclease activity. During each synthesis step of the amplification, any probe which hybridizes to the target nucleic acid downstream from the primer being extended is degraded by the 5′- to 3′-exonuclease activity of the DNA polymerase. Thus, the synthesis of a new target strand also results in the degradation of a probe, and the accumulation of degradation product provides a measure of the synthesis of target sequences.

The hybridization probe can be an allele-specific probe that discriminates between the SNP alleles. Alternatively, the method can be performed using an allele-specific primer and a labeled probe that binds to amplified product.

Any method suitable for detecting degradation product can be used in a 5′-nuclease assay. Often, the detection probe is labeled with two fluorescent dyes, one of which is capable of quenching the fluorescence of the other dye. The dyes are attached to the probe, usually one attached to the 5′-terminus and the other is attached to an internal site, such that quenching occurs when the probe is in an unhybridized state and such that cleavage of the probe by the 5′- to 3′-exonuclease activity of the DNA polymerase occurs in between the two dyes. Amplification results in cleavage of the probe between the dyes with a concomitant elimination of quenching and an increase in the fluorescence observable from the initially quenched dye. The accumulation of degradation product is monitored by measuring the increase in reaction fluorescence. U.S. Pat. Nos. 5,491,063 and 5,571,673 describe alternative methods for detecting the degradation of probe which occurs concomitant with amplification.

ii) Secondary Structure Probes

Probes detectable upon a secondary structural change are also suitable for detection of a polymorphism, including SNPs. Exemplified secondary structure or stem-loop structure probes include molecular beacons or SCORPION® primer/probes. Molecular beacon probes are single-stranded oligonucleic acid probes that can form a hairpin structure in which a fluorophore and a quencher are usually placed on the opposite ends of the oligonucleotide. At either end of the probe short complementary sequences allow for the formation of an intramolecular stem, which enables the fluorophore and the quencher to come into close proximity. The loop portion of the molecular beacon is complementary to a target nucleic acid of interest. Binding of this probe to its target nucleic acid of interest forms a hybrid that forces the stem apart. This causes a conformation change that moves the fluorophore and the quencher away from each other and leads to a more intense fluorescent signal. Molecular beacon probes are, however, highly sensitive to small sequence variation in the probe target (see, e.g., Tyagi et al. Nature Biotech. 14:303-308, 1996; Tyagi et al. Nature Biotech. 16:49-53, 1998; Piatek et al. Nature Biotech. 16: 359-363, 1998; Marras et al. Genetic Analysis: Biomolecular Engineering 14:151-156, 1999; Tapp et al, BioTechniques 28: 732-738, 2000). A SCORPION® primer/probe comprises a stem-loop structure probe covalently linked to a primer.

d. DNA Sequencing and Single Base Extensions

SNPs can also be detected by direct sequencing. Methods include e.g. dideoxy sequencing-based methods and other methods such as Maxam and Gilbert sequence (see, e.g. Sambrook and Russell, supra).

Other detection methods include PYROSEQUENCING™ of oligonucleotide-length products. Such methods often employ amplification techniques such as PCR. For example, in pyrosequencing, a sequencing primer is hybridized to a single stranded, PCR-amplified, DNA template and incubated with the enzymes DNA polymerase, ATP sulfurylase, luciferase, and apyrase, and the substrates adenosine 5′ phosphosulfate (APS) and luciferin. The first of four deoxynucleotide triphosphates (dNTP) is added to the reaction. DNA polymerase catalyzes the incorporation of the deoxynucleotide triphosphate into the DNA strand if it is complementary to the base in the template strand. Each incorporation event is accompanied by release of pyrophosphate (PPi) in a quantity equimolar to the amount of incorporated nucleotide. ATP sulfurylase quantitatively converts PPi to ATP in the presence of APS. This ATP drives the luciferase-mediated conversion of luciferin to oxyluciferin that generates visible light in amounts that are proportional to the amount of ATP. The light produced in the luciferase-catalyzed reaction is detected by a charge coupled device (CCD) camera and seen as a peak in a PYROGRAM™. Each light signal is proportional to the number of nucleotides incorporated. Apyrase, a nucleotide degrading enzyme, continuously degrades unincorporated dNTPs and excess ATP. When degradation is complete, another dNTP is added.

Another similar method for characterizing SNPs does not require use of a complete PCR, but typically uses only the extension of a primer by a single, fluorescence-labeled dideoxyribonucleic acid molecule (ddNTP) that is complementary to the nucleotide to be investigated. The nucleotide at the polymorphic site can be identified via detection of a primer that has been extended by one base and is fluorescently labeled (e.g., Kobayashi et al, Mol. Cell. Probes, 9:175-182, 1995).

e. Electrophoresis

Amplification products generated using the polymerase chain reaction can be analyzed by the use of denaturing gradient gel electrophoresis. Different alleles can be identified based on the different sequence-dependent melting properties and electrophoretic migration of DNA in solution (see, e.g. Erlich, ed., PCR Technology, Principles and Applications for DNA Amplification, W. H. Freeman and Co., 1992).

Distinguishing of microsatellite polymorphisms can be done using capillary electrophoresis. Capillary electrophoresis conveniently allows identification of the number of repeats in a particular microsatellite allele. The application of capillary electrophoresis to the analysis of DNA polymorphisms is well known to those in the art (see, for example, Szantai et al. J Chromatogr A. 1079(1-2):41-9, 2005; Bjorheim et al. Electrophoresis 26(13):2520-30, 2005 and Mitchelson, Mol. Biotechnol. 24(1):41-68, 2003).

The identity of the allelic variant may also be obtained by analyzing the movement of a nucleic acid comprising the polymorphic region in polyacrylamide gels containing a gradient of denaturant, which is assayed using denaturing gradient gel electrophoresis (DGGE) (see, e.g., Myers et al. Nature 313:495-498, 1985). When DGGE is used as the method of analysis, DNA will be modified to insure that it does not completely denature, for example, by adding a GC clamp of approximately 40 bp of high-melting GC-rich DNA by PCR. In a further embodiment, a temperature gradient is used in place of a denaturing agent gradient to identify differences in the mobility of control and sample DNA (see, e.g., Rosenbaum et al. Biophys. Chem. 265:1275, 1987).

f. Single-Strand Conformation Polymorphism Analysis

Alleles of target sequences can be differentiated using single-strand conformation polymorphism analysis, which identifies base differences by alteration in electrophoretic migration of single stranded PCR products, as described, e.g., in Orita et al. Proc. Nat. Acad. Sci. 86, 2766-2770, 1989; Cotton Mutat. Res. 285:125-144, 1993; and Hayashi Genet. Anal. Tech. Appl. 9:73-79, 1992. Amplified PCR products can be generated as described above, and heated or otherwise denatured, to form single stranded amplification products. Single-stranded nucleic acids may refold or form secondary structures which are partially dependent on the base sequence. The different electrophoretic mobilities of single-stranded amplification products can be related to base-sequence difference between alleles of target, and the resulting alteration in electrophoretic mobility enables the detection of even a single base change. The DNA fragments may be labeled or detected with labeled probes. The sensitivity of the assay may be enhanced by using RNA (rather than DNA), in which the secondary structure is more sensitive to a change in sequence. In another preferred embodiment, the subject method utilizes heteroduplex analysis to separate double stranded heteroduplex molecules on the basis of changes in electrophoretic mobility (see, e.g., Keen et al. Trends Genet. 7:5-10, 1991).

SNP detection methods often employ labeled oligonucleotides. Oligonucleotides can be labeled by incorporating a label detectable by spectroscopic, photochemical, biochemical, immunochemical, or chemical means. Useful labels include fluorescent dyes, radioactive labels, e.g. ³²P, electron-dense reagents, enzyme, such as peroxidase or alkaline phosphatase, biotin, or haptens and proteins for which antisera or monoclonal antibodies are available. Labeling techniques are well known in the art (see, e.g. Current Protocols in Molecular Biology, supra; Sambrook et al., supra).

g. Additional Methods to Determine the Genotype of an Individual at Polymorphisms

DNA microarray technology, e.g., DNA chip devices, high-density microarrays for high-throughput screening applications, and lower-density microarrays may be used. Methods for microarray fabrication are known in the art and include various inkjet and microjet deposition or spotting technologies and processes, in situ or on-chip photolithographic oligonucleotide synthesis processes, and electronic DNA probe addressing processes. DNA microarray hybridization applications have been successfully applied in the areas of gene expression analysis and genotyping for point mutations, single nucleotide polymorphisms (SNPs), and short tandem repeats (STRs). Additional methods include interference RNA microarrays and combinations of microarrays and other methods such as laser capture microdissection (LCM), comparative genomic hybridization (CGH), array CGH, and chromatin immunoprecipitation (ChIP). See, e.g., He et al. Adv. Exp. Med. Biol. 593:117-133, 2007 and Heller Annu. Rev. Biomed. Eng. 4:129-153, 2002.

In some embodiments, protection from cleavage agents (such as a nuclease, hydroxylamine or osmium tetroxide and with piperidine) can be used to detect mismatched bases in RNA/RNA, DNA/DNA, or RNA/DNA heteroduplexes (see, e.g., Myers et al. Science 230:1242, 1985). In general, the technique of “mismatch cleavage” starts by providing heteroduplexes formed by hybridizing a control nucleic acid, which is optionally labeled, e.g., RNA or DNA, comprising a nucleotide sequence of the allelic variant of the gene with a sample nucleic acid, e.g., RNA or DNA, obtained from a tissue sample. The double-stranded duplexes are treated with an agent that cleaves single-stranded regions of the duplex, such as duplexes formed based on base pair mismatches between the control and sample strands. For instance, RNA/DNA duplexes can be treated with RNase and DNA/DNA hybrids can be treated with 51 nuclease to enzymatically digest the mismatched regions. Alternatively, either DNA/DNA or RNA/DNA duplexes can be treated with hydroxylamine or osmium tetroxide and with piperidine in order to digest mismatched regions. After digestion of the mismatched regions, the resulting material is then separated by size on denaturing polyacrylamide gels to determine whether the control and sample nucleic acids have an identical nucleotide sequence or in which nucleotides they are different. See, for example, U.S. Pat. No. 6,455,249, Cotton et al. Proc. Natl. Acad. Sci. USA 85:4397-4401, 1988; Saleeba et al. Meth. Enzymol. 217:286-295, 1992.

In some cases, the presence of the specific allele in DNA from a subject can be shown by restriction enzyme analysis. For example, the specific nucleotide polymorphism can result in a nucleotide sequence comprising a restriction site which is absent from the nucleotide sequence of another allelic variant.

In another embodiment, identification of the allelic variant is carried out using an oligonucleotide ligation assay (OLA), as described, for example, in U.S. Pat. No. 4,998,617 and Laridegren et al. Science 241:1077-1080, 1988. The OLA protocol uses two oligonucleotides which are designed to be capable of hybridizing to abutting sequences of a single strand of a target. One of the oligonucleotides is linked to a separation marker, e.g., by biotinylation, and the other is detectably labeled. If the precise complementary sequence is found in a target molecule, the oligonucleotides will hybridize such that their termini abut, and create a ligation substrate. Ligation then permits the labeled oligonucleotide to be recovered using avidin or another biotin ligand. Also known in the art is a nucleic acid detection assay that combines attributes of PCR and OLA (see, e.g., Nickerson et al. Proc. Natl. Acad. Sci. USA 87:8923-8927, 1990). In this method, PCR is used to achieve the exponential amplification of target DNA, which is then detected using OLA.

A single base polymorphism can be detected by using a specialized exonuclease-resistant nucleotide, as described, for example, in U.S. Pat. No. 4,656,127. According to the method, a primer complementary to the allelic sequence immediately 3′ to the polymorphic site is permitted to hybridize to a target molecule obtained from a particular animal or human. If the polymorphic site on the target molecule contains a nucleotide that is complementary to the particular exonuclease-resistant nucleotide derivative present, then that derivative will be incorporated onto the end of the hybridized primer. Such incorporation renders the primer resistant to exonuclease, and thereby permits its detection. Since the identity of the exonuclease-resistant derivative of the sample is known, a finding that the primer has become resistant to exonucleases reveals that the nucleotide present in the polymorphic site of the target molecule was complementary to that of the nucleotide derivative used in the reaction. This method has the advantage that it does not require the determination of large amounts of extraneous sequence data.

A solution-based method may also be used for determining the identity of the nucleotide of the polymorphic site (see, e.g., WO 1991/02087). As above, a primer is employed that is complementary to allelic sequences immediately 3′ to a polymorphic site. The method determines the identity of the nucleotide of that site using labeled dideoxynucleotide derivatives, which, if complementary to the nucleotide of the polymorphic site will become incorporated onto the terminus of the primer.

An alternative method that may be used is described in WO 92/15712. This method uses mixtures of labeled terminators and a primer that is complementary to the sequence 3′ to a polymorphic site. The labeled terminator that is incorporated is thus determined by, and complementary to, the nucleotide present in the polymorphic site of the target molecule being evaluated. The method is usually a heterogeneous phase assay, in which the primer or the target molecule is immobilized to a solid phase.

Many other primer-guided nucleotide incorporation procedures for assaying polymorphic sites in DNA have been described (Komher et al. Nucl. Acids. Res. 17:7779-7784, 1989; Sokolov Nucl. Acids Res. 18:3671, 1990; Syvanen et al. Genomics 8:684-692, 1990; Kuppuswamy et al. Proc. Natl. Acad. Sci. USA 88:1143-1147, 1991; Prezant et al. Hum. Mutat. 1:159-164, 1992; Ugozzoli et al. GATA 9:107-112, 1992; Nyren et al. Anal. Biochem. 208:171-175, 1993). These methods all rely on the incorporation of labeled deoxynucleotides to discriminate between bases at a polymorphic site.

V. Biomarkers

The therapeutic and diagnostic methods of the invention can involve determination of the level of one or more biomarkers (e.g., periostin and/or sST2). The determination of the level of biomarkers can be performed by any of the methods known in the art or described below.

A. Detection of Gene Expression

The genetic biomarkers described herein (e.g., periostin) can be detected using any method known in the art. For example, tissue or cell samples from mammals can be conveniently assayed for, e.g., mRNAs or DNAs from a genetic biomarker of interest using Northern, dot-blot, or PCR analysis, array hybridization, RNase protection assay, or using DNA SNP chip microarrays, which are commercially available, including DNA microarray snapshots. For example, real-time PCR (RT-PCR) assays such as quantitative PCR assays are well known in the art. In an illustrative embodiment of the invention, a method for detecting mRNA from a genetic biomarker of interest (e.g., periostin and/or sST2) in a biological sample comprises producing cDNA from the sample by reverse transcription using at least one primer; amplifying the cDNA so produced; and detecting the presence of the amplified cDNA. In addition, such methods can include one or more steps that allow one to determine the levels of mRNA in a biological sample (e.g., by simultaneously examining the levels a comparative control mRNA sequence of a “housekeeping” gene such as an actin family member). Optionally, the sequence of the amplified cDNA can be determined.

i. Detection of Nucleic Acids

In one specific embodiment, expression of a biomarker (e.g., periostin and/or sST2) can be performed by RT-PCR technology. Probes used for PCR may be labeled with a detectable marker, such as, for example, a radioisotope, fluorescent compound, bioluminescent compound, a chemiluminescent compound, metal chelator, or enzyme. Such probes and primers can be used to detect the presence of an expressed biomarker (e.g., periostin) in a sample. As will be understood by the skilled artisan, a great many different primers and probes may be prepared based on the sequences provided in herein and used effectively to amplify, clone and/or determine the presence and/or levels of a biomarker (e.g., periostin).

Other methods include protocols that examine or detect mRNAs from a biomarker (e.g., periostin and/or sST2 mRNAs), in a tissue or cell sample by microarray technologies. Using nucleic acid microarrays, test and control mRNA samples from test and control tissue samples are reverse transcribed and labeled to generate cDNA probes. The probes are then hybridized to an array of nucleic acids immobilized on a solid support. The array is configured such that the sequence and position of each member of the array is known. For example, a selection of genes that have potential to be expressed in certain disease states may be arrayed on a solid support. Hybridization of a labeled probe with a particular array member indicates that the sample from which the probe was derived expresses that gene. Differential gene expression analysis of disease tissue can provide valuable information. Microarray technology utilizes nucleic acid hybridization techniques and computing technology to evaluate the mRNA expression profile of thousands of genes within a single experiment (see, e.g., WO 2001/75166). See, for example, U.S. Pat. Nos. 5,700,637, 5,445,934, and 5,807,522, Lockart, Nat. Biotech. 14:1675-1680, 1996; and Cheung et al. Nat. Genet. 21(Suppl):15-19, 1999 fora discussion of array fabrication.

In addition, the DNA profiling and detection method utilizing microarrays described in European Patent EP 1753878 may be employed. This method rapidly identifies and distinguishes between different DNA sequences utilizing short tandem repeat (STR) analysis and DNA microarrays. In an embodiment, a labeled STR target sequence is hybridized to a DNA microarray carrying complementary probes. These probes vary in length to cover the range of possible STRs. The labeled single-stranded regions of the DNA hybrids are selectively removed from the microarray surface utilizing a post-hybridization enzymatic digestion. The number of repeats in the unknown target is deduced based on the pattern of target DNA that remains hybridized to the microarray.

One example of a microarray processor is the Affymetrix GENECHIP® system, which is commercially available and comprises arrays fabricated by direct synthesis of oligonucleotides on a glass surface. Other systems may be used as known to one skilled in the art.

The specialized microarrays herein, e.g., oligonucleotide microarrays or cDNA microarrays, may comprise one or more biomarkers having expression profiles that correlate with either sensitivity or resistance to one or more IL-33 axis binding antagonists (e.g., an ST2 binding antagonist, e.g., an ST2-Fc protein). Other methods that can be used to detect nucleic acids, for use in the invention, involve high-throughput RNA sequence expression analysis, including RNA-based genomic analysis, such as, for example, RNASeq.

Many references are available to provide guidance in applying the above techniques (Kohler et al. Hybridoma Techniques, Cold Spring Harbor Laboratory, 1980; Tijssen, Practice and Theory of Enzyme Inimunoassays, Elsevier, 1985; Campbell, Monoclonal Antibody Technology, Elsevier, 1984; Hurrell, Monoclonal Hybridoma Antibodies: Techniques and Applications, CRC Press, 1982; and Zola, Monoclonal Antibodies: A Manual of Techniques, pp. 147-158, CRC Press, Inc., 1987). Northern blot analysis is a conventional technique well known in the art and is described, for example, in Sambrook et al, supra. Typical protocols for evaluating the status of genes and gene products are found, for example in Ausubel et al., supra.

ii. Detection of Proteins

As to detection of protein biomarkers, such as periostin and/or sST2, various protein assays are available including, for example, antibody-based methods as well as mass spectroscopy and other similar means known in the art. In the case of antibody-based methods, for example, the sample may be contacted with an antibody specific for the biomarker (e.g., periostin protein or sST2 protein) under conditions sufficient for an antibody-biomarker complex to form, and then detecting the complex.

Detection of the presence of the protein biomarker may be accomplished in a number of ways, such as by Western blotting (with or without immunoprecipitation), 2-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), immunoprecipitation, fluorescence activated cell sorting (FACS™), flow cytometry, and enzyme-linked immunosorbent assay (ELISA) procedures for assaying a wide variety of tissues and samples, including plasma or serum. A wide range of immunoassay techniques using such an assay format are available, see, e.g., U.S. Pat. Nos. 4,016,043; 4,424,279; and 4,018,653. These include both single-site and two-site or “sandwich” assays of the non-competitive types, as well as in the traditional competitive binding assays. These assays also include direct binding of a labeled antibody to a target biomarker.

Sandwich assays are among the most useful and commonly used assays. A number of variations of the sandwich assay technique exist, and all are intended to be encompassed by the present invention. Briefly, in a typical forward assay, an unlabelled antibody is immobilized on a solid substrate, and the sample to be tested is brought into contact with the bound molecule. After a suitable period of incubation, for a period of time sufficient to allow formation of an antibody-antigen complex, a second antibody specific to the antigen, labeled with a reporter molecule capable of producing a detectable signal is then added and incubated, allowing time sufficient for the formation of another complex of antibody-antigen-labeled antibody. Any unreacted material is washed away, and the presence of the antigen is determined by observation of a signal produced by the reporter molecule. The results may either be qualitative, by simple observation of the visible signal, or may be quantitated by comparing with a control sample containing known amounts of biomarker.

Variations on the forward assay include a simultaneous assay, in which both sample and labeled antibody are added simultaneously to the bound antibody. These techniques are well known to those skilled in the art, including any minor variations as will be readily apparent. In a typical forward sandwich assay, a first antibody having specificity for the biomarker is either covalently or passively bound to a solid surface. The solid surface is typically glass or a polymer, the most commonly used polymers being cellulose, polyacrylamide, nylon, polystyrene, polyvinyl chloride, or polypropylene. The solid supports may be in the form of tubes, beads, discs of microplates, or any other surface suitable for conducting an immunoassay. The binding processes are well-known in the art and generally consist of cross-linking covalently binding or physically adsorbing, the polymer-antibody complex is washed in preparation for the test sample. An aliquot of the sample to be tested is then added to the solid phase complex and incubated for a period of time sufficient (e.g., 2-40 minutes or overnight if more convenient) and under suitable conditions (e.g., from room temperature to 40° C. such as between 25° C. and 32° C. inclusive) to allow binding of any subunit present in the antibody. Following the incubation period, the antibody subunit solid phase is washed, dried, and incubated with a second antibody specific for a portion of the biomarker. The second antibody is linked to a reporter molecule which is used to indicate the binding of the second antibody to the molecular marker.

An alternative method involves immobilizing the target biomarkers in the sample and then exposing the immobilized target to specific antibody which may or may not be labeled with a reporter molecule. Depending on the amount of target and the strength of the reporter molecule signal, a bound target may be detectable by direct labeling with the antibody. Alternatively, a second labeled antibody specific to the first antibody is exposed to the target-first antibody complex to form a target-first antibody-second antibody tertiary complex. The complex is detected by the signal emitted by the reporter molecule. By “reporter molecule”, as used in the present specification, is meant a molecule which, by its chemical nature, provides an analytically identifiable signal which allows the detection of antigen-bound antibody. The most commonly used reporter molecules in this type of assay are either enzymes, fluorophores or radionuclide containing molecules (i.e., radioisotopes) and chemiluminescent molecules.

In the case of an enzyme immunoassay (EIA), an enzyme is conjugated to the second antibody, generally by means of glutaraldehyde or periodate. As will be readily recognized, however, a wide variety of different conjugation techniques exist, which are readily available to the skilled artisan. Examples of commonly used enzymes suitable for methods of the present invention include horseradish peroxidase, glucose oxidase, beta-galactosidase, and alkaline phosphatase. The substrates to be used with the specific enzymes are generally chosen for the production, upon hydrolysis by the corresponding enzyme, of a detectable color change. It is also possible to employ fluorogenic substrates, which yield a fluorescent product rather than the chromogenic substrates noted above. In all cases, the enzyme-labeled antibody is added to the first antibody-molecular marker complex, allowed to bind, and then the excess reagent is washed away. A solution containing the appropriate substrate is then added to the complex of antibody-antigen-antibody. The substrate will react with the enzyme linked to the second antibody, giving a qualitative visual signal, which may be further quantitated, usually spectrophotometrically, to give an indication of the amount of biomarker (e.g., periostin and/or sST2) which was present in the sample. Alternately, fluorescent compounds, such as fluorescein and rhodamine, may be chemically coupled to antibodies without altering their binding capacity. When activated by illumination with light of a particular wavelength, the fluorochrome-labeled antibody adsorbs the light energy, inducing a state to excitability in the molecule, followed by emission of the light at a characteristic color visually detectable with a light microscope. As in the EIA, the fluorescent labeled antibody is allowed to bind to the first antibody-molecular marker complex. After washing off the unbound reagent, the remaining tertiary complex is then exposed to the light of the appropriate wavelength, the fluorescence observed indicates the presence of the molecular marker of interest. Immunofluorescence and EIA techniques are both very well established in the art. However, other reporter molecules, such as radioisotope, chemiluminescent or bioluminescent molecules, may also be employed.

In some embodiments of the present invention, a Total Periostin Assay, as described in WO 2012/083132, is used to determine the level of periostin in a sample derived from the patient.

For example, a periostin capture ELISA assay that is very sensitive (sensitivity of approximately 1.88 ng/ml) referred to as the E4 assay is described below. The antibodies recognize periostin isoforms 1-4 (SEQ ID NOs:5-8 of WO 2012/083132) at nanomolar affinity.

The steps of the method are as follows. Dilute 80 μL of purified monoclonal antibody, 25D4 (Coat Antibody, SEQ ID NOs: 1 and 2 of WO 2012/083132 expressed from a hybridoma ora CHO cell line) with phosphate buffered saline (PBS) to a final concentration of 2 μg/mL. Coat a microtiter plate overnight, covered, at 2-8° C. with Coat Antibody, 100 μL per well. Wash the plate three times with 400 μL wash buffer (PBS/0.05% Tween (polysorbate 20) per well per cycle of wash buffer at room temperature. Add 200 μL per well of blocking buffer to the plate. Incubate covered plate at room temp with shaking for 1.5 hours.

Prepare a recombinant human periostin (rhuPeriostin) standard curve (Standard Stock of rhuPeriostin=rhuPeriostin isoform 1, R&D systems #3548-F2, 5.25 ng/ml, in Assay Diluent (PBS/0.5% bovine serum albumin (BSA)/0.05% polysorbate 20/0.05% ProClin300, pH7.4). Standard curve diluent=PBS/0.5% BSA/0.05% polysorbate 20, 0.05% ProClin300, pH 7.4.

Prepare controls and samples. Three controls: Spike Source Control (rhuPeriostin full length, isoform 1, R&D Systems #3548-F2), Normal Matrix Control (normal human serum pool, Bioreclamation, Inc.), High Matrix Control (normal human serum pool, plus 100 ng/ml rhuPeriostin spike).

For example:

10 μL Control(or sample)serum+1.99 mL sample/control diluent=1:200

300 μL 1:200 dilution+300 μL sample/control diluent=1:400

300 μL 1:400 dilution+300 μL sample/control diluent=1:800

300 μL 1:800 dilution+300 μL sample/control diluent=1:1600

Each dilution is run in singlicate.

Construct Matrix Controls using a normal human serum pool. Use unspiked pooled human serum as the Normal Control. Generate the High Control by spiking 100 ng/mL rhuPeriostin into the pooled serum as described above. Compute mean, standard deviation (SD), and % coefficient of variance (CV, expressed in percent) for the four dilutions for each control on every plate. CV quantifies magnitude of variance in replicate measurements with respect to mean of replicates (e.g., % CV=100*(SD/mean)). Evaluate these mean concentrations across all plates to determine inter-plate precision. This control table is then used to define the Normal and High Control pass/fail criteria, setting allowable variance to ±20% of the mean concentration for each control.

Wash the plate three times with 400 μL per well per cycle of wash buffer (PBS/0.05% polysorbate 20). Add diluted standards (duplicate wells), controls (all four dilutions), and samples (all four dilutions) to the plate, 100 μL per well. Incubate the plate covered, at room temperature with shaking for 2 hours at room temp. Dilute 80 μL detection MAb stock I (biotinylated murine anti-human periostin, MAb 23B9, 7.5 μg/ml in Assay Diluent) to 12 mL with Assay Diluent=50 ng/mL. Wash plate four times with 400 μL per well per cycle of wash buffer. Add diluted detection MAb to plate, 100 μL per well. Incubate covered plate at room temp for one hour with shaking. Dilute 80 μL streptavidin-HRP stock I (AMDEX streptavidin-HRP, GE Healthcare #RPN4401, approximately 1 mg/ml) diluted 1:80 in Assay Diluent to 12 mL with Assay Diluent=1:12 k. Wash the plate four times with 400 μL per well per cycle of wash buffer. Add diluted streptavidin-HRP to the plate, 100 μL per well. Incubate covered plate at room temperature for 45 min with shaking. Bring Kirkegaard and Perry (KPL) two-step TMB reagents to room temperature; do not combine. Wash the plate four times with 400 μL per well per cycle of wash buffer. Mix equal volumes of KPL TMB substrate components and add to the plate, 100 μL per well. Incubate the plate for 20 minutes at room temperature with shaking. Add 1 M phosphoric acid to plate, 100 μL per well. Read the plate using 450 nm read wavelength and 650 nm reference wavelength.

In other embodiments, the ELECSYS® periostin assay described in WO 2012/083132 is used to determine the level of periostin in a sample derived from the patient, as described below.

The quantitative detection of periostin is assessed in an automated Roche cobas e601 ELECSYS® analyzer (Roche Diagnostics GmbH). The test is carried out in the sandwich format wherein the analyte periostin is sandwiched between two monoclonal antibodies binding to two different epitopes on periostin. One antibody is biotinylated and enables the capture of the immunocomplex to streptavidin-coated magnetic beads. The second antibody bears a complexed ruthenium cation as the signaling moiety that allows a voltage dependent electrochemi-luminescent detection of the bound immunocomplex.

In detail, the reagents used are as follows:

-   -   Beads (M): Streptavidin-coated magnetic microparticles 0.72         mg/mL; preservative.     -   Reagent 1 (R1): Anti-periostin-antibody˜biotin:         This purified mouse monoclonal-antibody corresponds to the         coating antibody 25D4 described above in relation to the E4         assay and is used in biotinylated form >1.0 mg/L; TRIS         buffer >100 mmol/L, pH 7.0; preservative.     -   Reagent 2 (R2): Anti-periostin-antibody˜Ru(bpy):         This purified mouse monoclonal anti-periostin antibody         corresponds to the detection antibody 23B9 described above in         relation to the E4 assay and is used in labeled form (labeled         with a (Tris(2,2′-bipyridyl)ruthenium(II)-complex (Ru(bpy))         complex) >1.0 mg/L; TRIS buffer >100 mmol/L, pH 7.0;         preservative.

The immunoassay is carried out using two incubations. In the first incubation of about 9 minutes, periostin in 20 μL of sample and the biotinylated monoclonal anti-periostin antibody (R1) form a complex. In the second incubation step of an additional 9 minutes, ruthenylated monoclonal anti-periostin antibody (R2) and streptavidin-coated microparticles (M) are added to the vial of the first incubation so that a 3-membered sandwich complex is formed and becomes bound to the solid phase (microparticles) via the interaction of biotin and streptavidin.

The reaction mixture is aspirated into the measuring cell where the microparticles are magnetically captured onto the surface of a platinum electrode. Unbound substances are washed away and the cell flushed with ProCell, a reagent containing tripropylamine. Application of a voltage to the electrode then induces a chemi-luminescent emission which is measured by a photomultiplier. Results are determined via an instrument-specific calibration curve which is generated by 2-point calibration and a master curve provided via the reagent barcode. Calibrator 1 is analyte free, whereas calibrator 2 contains 50 ng/mL rhuPeriostin in a buffered matrix. To verify calibration, two controls with approximately 30 and 80 ng/mL periostin are employed.

In some embodiments, an exemplary reference level for periostin levels is 23 ng/ml, for example, when using the E4 assay described above. For instance, when using the E4 assay, a patient may have a periostin level at or greater than a reference level if the patient's periostin level is 23 ng/ml or higher, 24 ng/ml or higher, 25 ng/ml or higher, 26 ng/ml or higher, 27 ng/ml or higher, 28 ng/ml or higher, 29 ng/ml or higher, 30 ng/ml or higher, 31 ng/ml or higher, 32 ng/ml or higher, 33 ng/ml or higher, 34 ng/ml or higher, 35 ng/ml or higher, 36 ng/ml or higher, 37 ng/ml or higher, 38 ng/ml or higher, 39 ng/ml or higher, 40 ng/ml or higher, 41 ng/ml or higher, 42 ng/ml or higher, 43 ng/ml or higher, 44 ng/ml or higher, 45 ng/ml or higher, 46 ng/ml or higher, 47 ng/ml or higher, 48 ng/ml or higher, 49 ng/ml or higher, 50 ng/ml or higher, 51 ng/ml or higher, 52 ng/ml or higher, 53 ng/ml or higher, 54 ng/ml or higher, 55 ng/ml or higher, 56 ng/ml or higher, 57 ng/ml or higher, 58 ng/ml or higher, 59 ng/ml or higher, 60 ng/ml or higher, 61 ng/ml or higher, 62 ng/ml or higher, 63 ng/ml or higher, 64 ng/ml or higher, 65 ng/ml or higher, 66 ng/ml or higher, 67 ng/ml or higher, 68 ng/ml or higher, 69 ng/ml or higher or 70 ng/ml or higher in the serum or plasma.

When using the E4 assay, a patient may have a periostin level at or below a reference level if the patient's periostin level is 23 ng/ml or lower, 22 ng/ml or lower, 21 ng/ml or lower, 20 ng/ml or lower, 19 ng/ml or lower, 18 ng/ml or lower, 17 ng/ml or lower, 16 ng/ml or lower, 15 ng/ml or lower, 14 ng/ml or lower, 13 ng/ml or lower, 12 ng/ml or lower, 11 ng/ml or lower, 10 ng/ml or lower, 9 ng/ml or lower, 8 ng/ml or lower, 7 ng/ml or lower, 6 ng/ml or lower, 5 ng/ml or lower, 4 ng/ml or lower, 3 ng/ml or lower, 2 ng/ml or lower, or 1 ng/ml or lower.

In other embodiments, an exemplary reference level for periostin levels is 50 ng/ml, for example, when using the ELECSYS® periostin assay described above. For instance, when using the ELECSYS® periostin assay, a patient may have a periostin level at or greater than a reference level if the patient's periostin level is 50 ng/ml or higher, 51 ng/ml or higher, 52 ng/ml or higher, 53 ng/ml or higher, 54 ng/ml or higher, 55 ng/ml or higher, 56 ng/ml or higher, 57 ng/ml or higher, 58 ng/ml or higher, 59 ng/ml or higher, 60 ng/ml or higher, 61 ng/ml or higher, 62 ng/ml or higher, 63 ng/ml or higher, 64 ng/ml or higher, 65 ng/ml or higher, 66 ng/ml or higher, 67 ng/ml or higher, 68 ng/ml or higher, 69 ng/ml or higher, 70 ng/ml or higher, 71 ng/ml or higher, 72 ng/ml or higher, 73 ng/ml or higher, 74 ng/ml or higher, 75 ng/ml or higher, 76 ng/ml or higher, 77 ng/ml or higher, 78 ng/ml or higher, 79 ng/ml or higher, 80 ng/ml or higher, 81 ng/ml or higher, 82 ng/ml or higher, 83 ng/ml or higher, 84 ng/ml or higher, 85 ng/ml or higher, 86 ng/ml or higher, 87 ng/ml or higher, 88 ng/ml or higher, 89 ng/ml or higher, 90 ng/ml or higher, 91 ng/ml or higher, 92 ng/ml or higher, 93 ng/ml or higher, 94 ng/ml or higher, 95 ng/ml or higher, 96 ng/ml or higher, 97 ng/ml or higher, 98 ng/ml or higher, or 99 ng/ml or higher.

When using the ELECSYS® periostin assay, a patient may have a periostin level at or below a reference level if the patient's periostin level is 50 ng/ml or lower, 49 ng/ml or lower, 48 ng/ml or lower, 47 ng/ml or lower, 46 ng/ml or lower, 45 ng/ml or lower, 44 ng/ml or lower, 43 ng/ml or lower, 42 ng/ml or lower, 41 ng/ml or lower, 40 ng/ml or lower, 39 ng/ml or lower, 38 ng/ml or lower, 37 ng/ml or lower, 36 ng/ml or lower, 35 ng/ml or lower, 34 ng/ml or lower, 33 ng/ml or lower, 32 ng/ml or lower, 31 ng/ml or lower, 30 ng/ml or lower, 29 ng/ml or lower, 28 ng/ml or lower, 27 ng/ml or lower, 26 ng/ml or lower, 25 ng/ml or lower, 24 ng/ml or lower, 23 ng/ml or lower, 22 ng/ml or lower, 21 ng/ml or lower, 20 ng/ml or lower, 19 ng/ml or lower, 18 ng/ml or lower, 17 ng/ml or lower, 16 ng/ml or lower, 15 ng/ml or lower, 14 ng/ml or lower, 13 ng/ml or lower, 12 ng/ml or lower, 11 ng/ml or lower, 10 ng/ml or lower, 9 ng/ml or lower, 8 ng/ml or lower, 7 ng/ml or lower, 6 ng/ml or lower, 5 ng/ml or lower, 4 ng/ml or lower, 3 ng/ml or lower, 2 ng/ml or lower, or 1 ng/ml or lower.

In some embodiments, the level of sST2 in a patient sample may be determined using any suitable method known in the art and/or described herein, for example, in Example 3. In some embodiments, a patient may have a sST2 level at or above a reference level if the patient's sST2 level is 0.1 ng/ml or higher, 0.5 ng/ml or higher, 1 ng/ml or higher, 2 ng/ml or higher, 3 ng/ml or higher, 4 ng/ml or higher, 5 ng/ml or higher, 6 ng/ml or higher, 7 ng/ml or higher, 8 ng/ml or higher, 9 ng/ml or higher, 10 ng/ml or higher, 11 ng/ml or higher, 12 ng/ml or higher, 13 ng/ml or higher, 14 ng/ml or higher, 15 ng/ml or higher, 16 ng/ml or higher, 17 ng/ml or higher, 18 ng/ml or higher, 19 ng/ml or higher, 20 ng/ml or higher, 21 ng/ml or higher, 22 ng/ml or higher, 23 ng/ml or higher, 24 ng/ml or higher, 25 ng/ml or higher, 26 ng/ml or higher, 27 ng/ml or higher, 28 ng/ml or higher, 29 ng/ml or higher, 30 ng/ml or higher, 31 ng/ml or higher, 32 ng/ml or higher, 33 ng/ml or higher, 34 ng/ml or higher, 35 ng/ml or higher, 36 ng/ml or higher, 37 ng/ml or higher, 38 ng/ml or higher, 39 ng/ml or higher, 40 ng/ml or higher, 41 ng/ml or higher, 42 ng/ml or higher, 43 ng/ml or higher, 44 ng/ml or higher, 45 ng/ml or higher, 46 ng/ml or higher, 47 ng/ml or higher, 48 ng/ml or higher, 49 ng/ml or higher, 50 ng/ml or higher, or higher than 50 ng/ml.

VI. Kits

In some embodiments, the invention provides a kit for carrying out the methods of the invention, for example, for determining the genotype of a patient at a polymorphism as described herein. In some embodiments, the invention provides a kit for determining whether a patient is at risk of an IL-33-mediated disorder (e.g., asthma or pulmonary fibrosis (e.g., idiopathic pulmonary fibrosis)). Such kits typically contain one of more of the compositions described above and instructions for use. As an example only, the invention also provides kits for determining whether a patient is at risk of an IL-33-mediated disorder (e.g., asthma) containing a first and second oligonucleotide specific for a polymorphic region of 11RL1, for example, specific for polymorphism rs4988956 (SEQ ID NO: 1); polymorphism rs10204137 (SEQ ID NO: 2); polymorphism rs10192036 (SEQ ID NO: 3); polymorphism rs10192157 (SEQ ID NO: 4); or polymorphism rs10206753 (SEQ ID NO: 5). In another example, the invention also provides kits for determining whether a patient is at risk of an IL-33-mediated disorder (e.g., asthma) containing a first and second oligonucleotide specific for a polymorphic region of 133, for example, polymorphism rs4742165 (SEQ ID NO: 6). In yet another example, the invention provides kits for determining whether a patient is at risk of an IL-33-mediated disorder (e.g., asthma) containing a first and second oligonucleotide specific for a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6), for example, any polymorphism listed in Table 3 or Table 4. As another example, the invention also provides kits for determining whether a patient is likely to respond to treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) containing a first and second oligonucleotide specific for a polymorphic region of 11RL1, for example, specific for polymorphism rs4988956 (SEQ ID NO: 1); polymorphism rs10204137 (SEQ ID NO: 2); polymorphism rs10192036 (SEQ ID NO: 3); polymorphism rs10192157 (SEQ ID NO: 4); or polymorphism rs10206753 (SEQ ID NO: 5). As yet another example, the invention also provides kits for determining whether a patient is likely to respond to treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) containing a first and second oligonucleotide specific for a polymorphic region of 133, for example, polymorphism rs4742165 (SEQ ID NO: 6). In a further example, the invention provides kits for determining whether a patient is likely to respond to treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist) containing a first and second oligonucleotide specific for a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6), for example, any polymorphism listed in Table 3 or Table 4.

Oligonucleotides “specific for” a genetic locus bind either to the polymorphic region of the locus or bind adjacent to the polymorphic region of the locus. For oligonucleotides that are to be used as primers for amplification, primers are adjacent if they are sufficiently close to be used to produce a polynucleotide comprising the polymorphic region. In one embodiment, oligonucleotides are adjacent if they bind within about 1-2 kb, e.g., less than 1 kb from the polymorphism. Specific oligonucleotides are capable of hybridizing to a sequence, and under suitable conditions will not bind to a sequence differing by a single nucleotide.

Oligonucleotides, whether used as probes or primers, contained in a kit can be detectably labeled. Labels can be detected either directly, for example for fluorescent labels, or indirectly. Indirect detection can include any detection method known to one of skill in the art, including biotin-avidin interactions, antibody binding and the like. Fluorescently labeled oligonucleotides also can contain a quenching molecule. Oligonucleotides can be bound to a surface. In some embodiments, the surface is silica or glass. In some embodiments, the surface is a metal electrode.

Yet other kits of the invention comprise at least one reagent necessary to perform the assay. For example, the kit can comprise an enzyme. Alternatively the kit can comprise a buffer or any other necessary reagent.

The kits can include all or some of the positive controls, negative controls, reagents, primers, sequencing markers, probes and antibodies described herein for determining the subject's genotype at one or more polymorphisms in the IL1RL1 gene (e.g., polymorphism rs4988956 (SEQ ID NO: 1); polymorphism rs10204137 (SEQ ID NO: 2); polymorphism rs10192036 (SEQ ID NO: 3); polymorphism rs10192157 (SEQ ID NO: 4); or polymorphism rs10206753 (SEQ ID NO: 5), one or more polymorphisms in the IL33 gene (e.g., polymorphism rs4742165 (SEQ ID NO: 6)), or one or more polymorphisms that is in linkage disequilibrium with a polymorphism in the IL1RL1 gene or IL33 gene (e.g., a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6), for example, any polymorphism listed in Table 3 or Table 4).

For use in detection of the biomarkers (e.g., periostin), kits or articles of manufacture are also provided by the invention. Such kits can be used to determine if a subject with an IL-33-mediated disorder is likely to respond to treatment comprising an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist). These kits may comprise a carrier means being compartmentalized to receive in close confinement one or more container means such as vials, tubes, and the like, each of the container means comprising one of the separate elements to be used in the method. For example, one of the container means may comprise a probe that is or can be detectably labeled. Such probe may be an antibody or polynucleotide specific for a protein or message, respectively. Where the kit utilizes nucleic acid hybridization to detect the target nucleic acid, the kit may also have containers containing nucleotide(s) for amplification of the target nucleic acid sequence and/or a container comprising a reporter-means, such as a biotin-binding protein (e.g., avidin or streptavidin) bound to a reporter molecule, such as an enzymatic, florescent, or radioisotope label.

Such kits will typically comprise the container described above and one or more other containers comprising materials desirable from a commercial and user standpoint, including buffers, diluents, filters, needles, syringes, and package inserts with instructions for use. A label may be present on the container to indicate that the composition is used for a specific application, and may also indicate directions for either in vivo or in vitro use, such as those described above.

The kits of the invention have a number of embodiments. A typical embodiment is a kit comprising a container, a label on said container, and a composition contained within said container, wherein the composition includes a primary antibody that binds to a protein or autoantibody biomarker (e.g., periostin), and the label on said container indicates that the composition can be used to evaluate the presence of such proteins or antibodies in a sample, and wherein the kit includes instructions for using the antibody for evaluating the presence of biomarker proteins in a particular sample type. The kit can further comprise a set of instructions and materials for preparing a sample and applying antibody to the sample. The kit may include both a primary and secondary antibody, wherein the secondary antibody is conjugated to a label, e.g., an enzymatic label.

Another embodiment is a kit comprising a container, a label on said container, and a composition contained within said container, wherein the composition includes one or more polynucleotides that hybridize to a complement of a biomarker (e.g., periostin) under stringent conditions, and the label on said container indicates that the composition can be used to evaluate the presence of a biomarker (e.g., periostin) in a sample, and wherein the kit includes instructions for using the polynucleotide(s) for evaluating the presence of the biomarker RNA or DNA in a particular sample type.

Other optional components of the kit include one or more buffers (e.g., block buffer, wash buffer, substrate buffer, etc.), other reagents such as substrate (e.g., chromogen) that is chemically altered by an enzymatic label, epitope retrieval solution, control samples (positive and/or negative controls), control slide(s), etc. Kits can also include instructions for interpreting the results obtained using the kit. In further specific embodiments, for antibody-based kits, the kit can comprise, for example: (1) a first antibody (e.g., attached to a solid support) that binds to a biomarker protein (e.g., periostin); and, optionally, (2) a second, different antibody that binds to either the protein or the first antibody and is conjugated to a detectable label.

For oligonucleotide-based kits, the kit can comprise, for example: (1) an oligonucleotide, e.g., a detectably labeled oligonucleotide, which hybridizes to a polymorphic region of the IL1RL1 gene (e.g., polymorphism rs4988956 (SEQ ID NO: 1); polymorphism rs10204137 (SEQ ID NO: 2); polymorphism rs10192036 (SEQ ID NO: 3); polymorphism rs10192157 (SEQ ID NO: 4); or polymorphism rs10206753 (SEQ ID NO: 5); a polymorphic region of the IL33 gene (e.g., polymorphism rs4742165 (SEQ ID NO: 6)), or a polymorphism that is in linkage disequilibrium with a polymorphism in the IL1RL1 gene or IL33 gene (e.g., a polymorphism that is in linkage disequilibrium with a polymorphism selected from the group consisting of rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), rs10206753 (SEQ ID NO: 5), and rs4742165 (SEQ ID NO: 6), for example, any polymorphism listed in Table 3 or Table 4), as described above, and/or a nucleic acid sequence encoding a biomarker protein (e.g., periostin or sST2) or (2) a pair of primers useful for amplifying a biomarker nucleic acid molecule. The kit can also comprise, e.g., a buffering agent, a preservative, or a protein stabilizing agent. The kit can further comprise components necessary for detecting the detectable label (e.g., an enzyme or a substrate). The kit can also contain a control sample or a series of control samples that can be assayed and compared to the test sample. Each component of the kit can be enclosed within an individual container and all of the various containers can be within a single package, along with instructions for interpreting the results of the assays performed using the kit.

VII. Pharmaceutical Formulations

Therapeutic formulations of the antagonists used in accordance with the present invention (e.g., an IL-33 axis binding antagonist (e.g., an ST2 binding antagonist, e.g., an ST2-Fc protein), a tryptase-beta binding antagonist, a CRTH2 antagonist, an IL-13 binding antagonist, an IL-17 binding antagonist, a JAK1 antagonist, and/or an IL-5 binding antagonist) are prepared for storage by mixing the antagonist having the desired degree of purity with optional pharmaceutically acceptable carriers, excipients, or stabilizers in the form of lyophilized formulations or aqueous solutions. For general information concerning formulations, see, e.g., Gilman et al. (eds.) The Pharmacological Bases of Therapeutics, 8th Ed., Pergamon Press, 1990; A. Gennaro (ed.), Remington's Pharmaceutical Sciences, 18th Edition, Mack Publishing Co., Pennsylvania, 1990; Avis et al. (eds.) Pharmaceutical Dosage Forms: Parenteral Medications Dekker, New York, 1993; Lieberman et al. (eds.) Pharmaceutical Dosage Forms: Tablets Dekker, New York, 1990; Lieberman et al. (eds.), Pharmaceutical Dosage Forms: Disperse Systems Dekker, New York, 1990; and Walters (ed.) Dermatological and Transdermal Formulations (Drugs and the Pharmaceutical Sciences), Vol 119, Marcel Dekker, 2002.

Acceptable carriers, excipients, or stabilizers are non-toxic to recipients at the dosages and concentrations employed, and include buffers such as phosphate, citrate, and other organic acids; antioxidants including ascorbic acid and methionine; preservatives (such as octadecyldimethylbenzyl ammonium chloride; hexamethonium chloride; benzalkonium chloride, benzethonium chloride; phenol, butyl or benzyl alcohol; alkyl parabens such as methyl or propyl paraben; catechol; resorcinol;

cyclohexanol; 3-pentanol; and m-cresol); low molecular weight (less than about 10 residues) polypeptides; proteins, such as serum albumin, gelatin, or immunoglobulins; hydrophilic polymers such as polyvinylpyrrolidone; amino acids such as glycine, glutamine, asparagine, histidine, arginine, or lysine; monosaccharides, disaccharides, and other carbohydrates including glucose, mannose, or dextrins; chelating agents such as EDTA; sugars such as sucrose, mannitol, trehalose or sorbitol; salt-forming counter-ions such as sodium; metal complexes (e.g., Zn-protein complexes); and/or non-ionic surfactants such as TWEEN™, PLURONICS™, or polyethylene glycol (PEG).

The formulation herein may also contain more than one active compound, preferably those with complementary activities that do not adversely affect each other. The type and effective amounts of such medicaments depend, for example, on the amount and type of antagonist present in the formulation, and clinical parameters of the subjects.

The active ingredients may also be entrapped in microcapsules prepared, for example, by coacervation techniques or by interfacial polymerization, for example, hydroxymethylcellulose or gelatin-microcapsules and poly-(methylmethacylate) microcapsules, respectively, in colloidal drug delivery systems (for example, liposomes, albumin microspheres, microemulsions, nano-particles and nanocapsules) or in macroemulsions. Such techniques are disclosed in Remington's Pharmaceutical Sciences 16th edition, Osol, A. Ed. (1980).

Sustained-release preparations may be prepared. Suitable examples of sustained-release preparations include semi-permeable matrices of solid hydrophobic polymers containing the antagonist, which matrices are in the form of shaped articles, e.g., films, or microcapsules. Examples of sustained-release matrices include polyesters, hydrogels (for example, poly(2-hydroxyethyl-methacrylate), or poly(vinylalcohol)), polylactides (U.S. Pat. No. 3,773,919), copolymers of L-glutamic acid and y ethyl-L-glutamate, non-degradable ethylene-vinyl acetate, degradable lactic acid-glycolic acid copolymers such as the LUPRON DEPOT™ (injectable microspheres composed of lactic acid-glycolic acid copolymer and leuprolide acetate), and poly-D-(−)-3-hydroxybutyric acid.

The formulations to be used for in vivo administration must be sterile. This is readily accomplished by filtration through sterile filtration membranes.

EXAMPLES

The following examples are provided to illustrate, but not to limit the presently claimed invention.

Example 1. Identification of Causative SNPs that Confer Protection from Asthma Risk

In this analysis, we have identified amino acid changing variants in IL1RL1 associated with asthma risk (see Table 1 and 2) that are tightly linked (r²=1.0) to the intronic SNP rs3771166. These amino acid changing SNPs were identified in the 1000 Genomes European samples and tested for association with asthma risk in our case-control dataset. Asthma cases included 522 samples from patients of European ancestry from Genentech clinical trials BOBCAT, EXTRA, MILLY, and MOLLY, which were compared to control samples from 4465 individuals of European ancestry from the Cancer Genetic Markers of Susceptibility (CGEMS) genome-wide association study (GWAS) (Jia et al. J. Allergy Clin. Immunol. 130: 647-654, 2012; Hanania et al. Am. J. Respir. Crit. Care Med. 187: 804-811, 2013; Corren et al. N. Engl. J. Med. 365: 1088-1098, 2011; Noonen et al. J. Allergy Clin. Immunol. 132: 567-574, 2013). These same polymorphisms have also been reported to be associated with risk to cardiovascular disease and elevated soluble ST2 (sST2) and IL-33 levels (Ho et al. J. Clin. Invest. 123: 4208-4218, 2013).

This analysis revealed that these SNPs are each protective from asthma risk in the study population (see Table 1). Two SNPs, rs10192036 and rs10204137, are located in the same codon, resulting only in Q501R due to tight linkage disequilibrium (LD) between the two SNPS (r²=1.0).

TABLE 1 Multiple amino acid changing SNPs within IL1RL1 are protective for asthma risk Amino acid MAF Cases MAF Controls SNP change Chr Position (n = 522) (n = 4465) P value OR rs4988956 A433T 2 102968007 0.32 0.38 5.38E−04 0.78 rs10192036 Q501K 2 102968211 0.32 0.38 5.32E−04 0.78 rs10204137 Q501R 2 102968212 0.32 0.38 5.32E−04 0.78 rs10192157 T549I 2 102968356 0.32 0.38 5.32E−04 0.78 rs10206753 L551S 2 102968362 0.32 0.38 5.32E−04 0.78 rs3771166 intronic 2 102986222 0.32 0.37 3.55E−04 0.77 Chr, chromosome; MAF, minor allele frequency; OR, odds ratio

The locus containing IL1RL1 on chromosome 2 is complex, containing multiple linkage disequilibrium (LD) blocks, each of which contain SNPs predisposing to asthma susceptibility. Furthermore, the SNPs in IL1RL1 are in LD with SNPs in IL18R1, making it difficult to assign causality to either gene. To address this issue, a conditional analysis of rs3771166 on SNPs in the locus within 500 kb in either direction was performed. Conditioning on the rs3771166 genotype eliminated the majority of the signal in the region, with only one SNP retaining its unconditioned p-value (rs17766515; p=0.01). From this same window, we selected SNPs not in LD with rs3771166 (D′<0.6) and performed a conditional analysis of these SNPs on rs3771166. For these analyses, rs3771166 retained its statistical significance (max p=0.01). These conditional analyses and the functional analysis presented below indicate that the amino acid changing SNPs in IL1RL1 captured by the tagSNP rs3771166 are the causal SNPs in this region. In view of these results, individuals whose genotype includes the common IL1RL1 variants are at an increased risk of asthma compared to the individuals whose genotype includes the protective IL1RL1 variants. The genotypes for each causative SNP of patients at an increased risk of asthma are shown in Table 2.

TABLE 2 SNP genotypes associated with increased risk of asthma SNP Genotype rs4988956 G rs10204137 A rs10192036 C rs10192157 C rs10206753 T

The functional significance of these amino acid mutations in vivo was investigated to determine how these protective variants influence the IL-33 response. These variants result in coding changes to the intracellular region of ST2, which contains the signal-modulating Toll/IL-1R (TIR) domain of the receptor. The TIR domain is critical for downstream signal transduction by IL-1 cytokine family and Toll-like receptors (TLR), and mutations or deletions in this domain can result in diminished or abrogated responses to ligand. IL-33-induced dimerization of ST2 and IL-1RAcP is thought to promote TIR-TIR domain interaction, followed by recruitment of the adaptor molecule MyD88 and Myddosome assembly (see FIG. 1A). Two of the variants in IL1RL1, A443T and Q501R, are located within the TIR domain, while the T5491 and L551S variants map to a poorly-characterized region of the C-terminus that has not been implicated in signal propagation (see FIG. 1A). To further define how the polymorphisms within the TIR domain may affect IL-33 signaling, the location of each variant was mapped to the known structure of the TLR10 TIR dimer (FIG. 1B). The Q501R variant mapped to the aD helix of the TIR domain, which is partially disordered in the TLR10 TIR dimer, while the A433T variant mapped to the aB helix in close proximity to the B-B loop (FIG. 1B). The conserved B-B loop of the TIR is thought to mediate dimerization of TLR10-linked TIR domains (Nyman et al. J. Biol. Chem. 283: 11861-11865, 2008).

To test the effects of these missense variants on IL-33-mediated signaling, cell lines expressing various permutations of the protective IL1RL1 variants were generated. Single TIR mutants, double C-terminal mutants, or mutants containing all four polymorphisms were generated and incorporated into expression vectors. To avoid endogenous IL-33 activity, HEK-BLUE™ (Invivogen) IL-1β cells that are responsive to IL-1β but are devoid of IL-33 activity were used. Stimulation of HEK-BLUE™ IL-1β cells with IL-1β results in robust NF-KB and AP-1 activation, which can be measured by NF-kB/AP-1-driven secreted alkaline phosphatase (SEAP) reporter activity. Stable transfection of ST2 expression vectors to HEK-BLUE™ IL-1β cells resulted in IL-33-dependent reporter activity, thus enabling the evaluation of both IL-1β and IL-33 responses using the same reporter system. While activation with IL-1β resulted in similar reporter gene induction between the different cell-lines, the response to IL-33 was diminished in cells expressing mutations in the TIR domains alone, or all 4 missense variants (see FIGS. 10, 1D, 2A, and 2B). As a control, measurement of receptor expression revealed equivalent surface levels of all ST2 mutants (see FIGS. 3A-3C).

To further elucidate how the protective ST2 variants could affect IL-33 activity in the context of asthma, we compared IL-33 activity and ST2 expression between human donors carrying either the protective IL1RL1 variants or the common IL1RL1 variants. In agreement with the reporter cell lines, we observed reduced IL-33-mediated interleukin-8 (IL-8) secretion from purified blood eosinophils derived from individuals carrying the protective IL1RL1 variants compared to individuals carrying the common IL1RL1 variants (FIG. 4). Further, we observed greater soluble ST2 expression in these individuals (FIGS. 5A and 5B).

These results provide a link between the genetic predisposition to asthma and IL-33 mediated responses. Given that IL-33 has a pro-inflammatory role in Th2-mediated immunity, perturbations to this pathway that diminish the IL-33 response can promote protection from asthma risk. The location of the variants within the TIR domain of ST2 predicts alterations to MyD88-mediated signaling. The subtle decrease in IL-33 responses conferred by these variants is consistent with the nature of the amino acid substitutions, the modest protective OR of the variants in IL1RL1 in the asthma genetics studies, and the chemical properties of their side chains. The fact that individuals bearing the common IL1RL1 variants are at increased risk of asthma compared to individuals bearing the protective IL1RL1 variants indicates that the genotype at these amino acid changing SNPs can be used in diagnostic methods to determine whether a patient is at increased risk of asthma. Further, these patients are likely to be responsive to therapies including an IL-33 axis binding antagonist, for example, an anti-IL-33 antibody or an ST2 binding antagonist, e.g., an ST2-Fc protein.

Methods Stable Expression of ST2L and Protective Variants

ST2L cDNA was cloned into the pCMV Neo expression vector, and the protective variants were generated via PCR-based site-directed mutagenesis. Stable transfection of linearized plasmids into HEK-BLUE™′ IL-1β reporter cells (Invivogen) was performed using LIPOFECTAMINE® (Life Technologies). HEK-BLUE™ IL-1β cells were maintained in DMEM, 2 mM L-glutamine, 10% heat-inactivated fetal bovine serum (FBS), NORMOCIN™ (100 μg/ml), hygromycin B (200 μg/ml), ZEOCIN™ (100 μg/ml), 50 U/ml penicillin and 50 μg/ml streptomycin. After 48 h, the transfected cells were selected in HEK-BLUE™ IL-1β growth media supplemented with 2 mg/ml G418 for 2 weeks. Stable expression of ST2L was confirmed via flow cytometry and mRNA analysis. Single clonal cultures were generated through limiting dilution of the batch cultures.

Cell Culture and Stimulation

IL-33 pathway activity in stably-transfected HEK-BLUE™ IL-1β reporter cells was measured via a colorimetric assay performed according to the manufacturer's instructions. Briefly, stably-transfected HEK-BLUE™ IL-1β reporter cells (50,000 cells/well in 96-well plates) were stimulated with increasing concentrations of IL-33 or IL-1β for 20 h at 37° C. in 5% CO₂. SEAP reporter activity was detected from supernatants with the QUANTI-BLUE™ assay (Invivogen) using a spectrophotometer at 620 nm.

RNA Isolation and Quantitative RT-PCR

RNA was isolated with an RNEASY® Mini Kit (Qiagen). An ABI 7500 Real-Time PCR system (Applied Biosystems) and TAQMAN® One-Step RT-PCR Master Mix (Applied Biosystems) were used for real-time RT-PCR (primers and probe sets from Applied Biosystems). Results were normalized to those of RPL19 and relative expression was calculated by change in threshold (ΔΔCT method).

Recombinant Proteins

Recombinant processed human IL-33 (IL-33₁₁₂₋₂₇₀) was prepared in-house. Recombinant IL-1β was purchased from R&D Systems.

Flow Cytometry Analysis

ST2L surface expression was detected using a biotinylated polyclonal antibody (BAF523, R&D Systems). Surface expression of IL-1RAcP was detected with an allophycocyanin (APC)-conjugated monoclonal antibody (FAB676A, R&D Systems). Mean fluorescence intensity (MFI) was calculated using FLOWJO™ software.

Human Eosinophil and Basophils Isolation

Primary human eosinophils and basophils were enriched from whole blood via negative selection using Miltenyi Biotec kits. Purity (>92%) was confirmed by flow cytometry analysis. Eosinophils were plated at 1×10⁶cells/ml in DMEM supplemented with 10% FBS, GLUTAMAX™, penicillin/streptomycin and containing 10 ng/ml recombinant human IL-3 (R&D Systems). Cell culture supernatants were collected after 24 h.

ELISA Analysis

IL-8 secretion from culture supernatants and plasma sST2 levels were measured using ELISA kits obtained from R&D Systems.

Genotyping

Asthma cases were genotyped on the ILLUMINA® 2.5M Omni array and variants were called using Illumina's GENOMESTUDIO™ software. Population controls were from the Cancer Genetic Markers of Susceptibility study (CGEMS) (cgems.cancer.gov). Population controls consisted of controls from the Cancer Genetic Markers of Susceptibility study (CGEMS) and were downloaded via database of Genotypes and Phenotypes (dbGAP) authorized access.

Sample Quality Control

Various quality control measures were performed on the asthma cases and controls. Samples missing more than 10% of the genotypes were removed (n=29). Samples with heterozygosity ±3 standard deviations (SD) from the mean were removed (n=47). Identity by descent (IBD) analysis was performed to identify and remove related samples with a proportion of alleles shared IBD>0.4 (n=11). We assessed population substructure by filtering the GWAS data on minor allele frequency (MAF) and linkage disequilibrium. This subset of SNPs was merged with HapMap data and was then analyzed in EIGENSTRAT (Price et al. Nat. Genet. 38: 904-909, 2006) to use principle components to remove ancestry outliers that did not cluster near Caucasian samples (n=242). After applying quality control filters, we analyzed 4,987 Northern European Caucasian samples, including 522 asthma cases and 4465 controls.

SNP Quality Control

Quality control was performed to identify and remove low-quality SNPs. SNPs with a genotyping call rate <95% were excluded from analysis. SNPs showing evidence of deviation from Hardy Weinberg Equilibrium (HWE) were also removed (Purcell et al. Am. J. Hum. Genet. 81(3): 559-575, 2007). In addition, any SNP that failed liftover to human genome assembly hg19 or had a 1000 Genomes Project (kgp) identifier that did not map to a Reference SNP ID (rsid) were also removed from the dataset. After these quality control measures, 297, 157 SNPs remained for imputation.

Genotype Imputation

Genotype imputation was performed for those samples using a workflow that included pre-phasing using Shapeit (Delaneau et al. Nat. Methods 9: 179-181, 2012) followed by imputation using IMPUTE2 (Marchini et al. Nat. Genet. 39: 906-913, 2007) and reference haplotypes from the 1000 Genomes Project (Durbin et al. Nature 467: 1061-1073, 2010).

Example 2. Periostin Levels are Predictive of Asthma Risk for Individuals Bearing the Protective ST2 Variants

To examine whether asthma biomarkers can be used to refine diagnostic and prognostic methods for determining whether asthma patients are likely to respond to IL-33 axis binding antagonists, we tested whether the level of periostin was predictive of asthma susceptibility in individuals bearing the protective SNPs shown in FIG. 6. The individuals were classified as having high or low periostin levels, and the association of each group with asthma was determined. Individuals with low periostin levels compared to reference levels bearing the protective SNPs were less susceptible to asthma (i.e., lower odds ratio) compared to those with high periostin levels (FIG. 6). However, both groups were less susceptible to asthma compared to individuals bearing the common variants.

Example 3. Association of Serum sST2 Levels with IL-33 Axis Genetic Susceptibility Factors

To examine whether peripheral blood sST2 levels were linked with IL-33 pathway activity via association of the IL-33 axis genetic susceptibility factors for asthma, we extended our previous findings of an association of serum sST2 levels with 11RL1 genetic variants in healthy donors (described in Example 1) and measured serum sST2 levels at baseline in 760 well-characterized, moderate-to-severe asthmatics from the BOBCAT (Jia et al. J. Allergy Clin. Immunol. 130:647-654, 2012), MILLY (Corren et al. N. Engl. J. Med. 365:1088-1098, 2011), and COSTA (Jeffrey et al. in: C101. Allergic airway inflammation and hyper-responsiveness: novel mechanisms and therapy American Thoracic Society; 2015. p. A5168-A) clinical studies.

Utilizing a previously described asthma discovery set (Ramirez-Carrozzi et al. J. Allergy Clin. Immunol. 135:1080-1083, 2015), we scanned the IL33 locus, which was identified previously as an asthma risk locus (see, e.g., Moffatt et al. N. Engl. J. Med. 363:1211-1221, 2010), and identified rs4742165 (SEQ ID NO: 6) as the top SNP in that locus by P-value (OR=1.71; P=5.26×10⁻⁴). The SNP identified in Moffatt et al. supra (rs1342326; SEQ ID NO: 7) was not in our dataset, and the strongest proxy was not associated with risk of disease, however, the r² for this SNP with rs1342326 (r²=0.66) was under a threshold that is commonly used to identify a strongly-linked SNP (r²≥0.8) (Moffatt et al. supra). Therefore, we performed an expression quantitative train linkage (eQTL) analysis of rs3771166 (SEQ ID NO: 8) and rs4742165 (SEQ ID NO: 6) with asthmatic serum sST2, to assess their combined genetic effect. IL1RL1 and 133 are located on chromosomes 2 and 9, respectively, so they are completely independent of each other.

The observed distribution and summary statistics of serum sST2 by the genotypes of rs3771166 and rs4742165 and sex are represented in FIGS. 7A and 7B, respectively. Median levels of serum sST2 were greater in males as was previously reported (Ramirez-Carrozzi et al. J. Allergy Clin. Immunol. 135:1080-1083, 2015 and Ho et al. J. Clin. Invest. 123: 4208-4218, 2013). In addition, median levels of serum sST2 increased with genotype of increasing minor allele count. Multiple regression of log₂-transformed serum sST2 levels with rs3771166 and rs4742165 genotypes, adjusted for sex, was employed to assess the strength and significance of these SNPs to simultaneously predict serum sST2 levels. All terms were statistically significant (P<0.05, ANOVA F-test), indicating that rs4742165 predicted serum sST2 levels, even after accounting for rs3771166. The magnitude and variability of the predictivity of genotypes are represented by a plot of serum sST2 least squares means (Ismean) and standard errors (FIG. 7C). The magnitude of the genetic effect of rs4742165 was approximately 1.6 times greater than that of rs3771166. Soluble ST2 levels increased 23% and 14% for each minor allele count of rs4742165 and rs3771166, respectively. Serum sST2 levels were 43% higher in male as compared to female subjects.

IL-33 is a potent stimulator of Type 2 cytokine production, e.g., IL-13, in mast cells and group 2 innate lymphoid cells (ILC2) (Nagarkar et al. J. Allergy Clin. Immunol. 136:202-205, 2015). Therefore, we assessed the pair-wise relationship of serum periostin, fractional exhaled nitric oxide (FeNO), and blood eosinophil counts, which are each Type 2 biomarkers which predict response to IL-13 blockade in asthmatics (Arron et al. Ann. Am. Thorac. Soc. 10(Suppl):5206-213, 2013), with serum sST2 levels (FIG. 8). Interestingly, no correlation was observed between serum sST2 and each Type 2 biomarker (Spearman's p estimates −0.15 to −0.078). These data suggest that the biology associated with sST2 may play a role in both Type 2 high and Type 2 low asthma.

These data demonstrate a positive link between serum sST2 levels with/33-associated risk of asthma, indicating that sST2 may be a biomarker of IL-33 axis activity in asthma and may have utility in predicting clinical response and measuring pharmacodynamic effects of IL-33 axis targeted therapies, including IL-33 axis binding antagonists, such as anti-IL-33 antibodies.

Methods

Biomarkers

sST2 was measured by ELISA (#DST200, R&D Systems, Quantikine). Serum periostin was measured by immunoassay using the ELECSYS® Periostin assay on the Cobas e601 analyzer (Roche Professional Diagnostics, Penzberg, Germany), as previously reported (Jia et al. J. Allergy Clin. Immunol. 130:647-654, 2012). FeNO was measured using the NIOX MING® device (Aerocrine, Solna, Sweden). Blood eosinophil count was assessed as part of a Complete Blood Cell Count (CBC) on automated hematology analyzers at central laboratories.

Statistics

R software (RCoreteam. R: A Language and Environment for Statistical Computing) was used for plotting and analysis. Spearman's rank correlation was utilized to assess correlation of baseline biomarker levels. Expression Quantitative Trail Linkage (eQTL) was performed as described previously (Stranger et al. Nat. Genet. 39:1217-1224, 2007). Multiple linear regression was utilized to model log₂-transformed serum sST2 levels with respect to rs4742165 (SEQ ID NO: 6) and rs3771166 genotypes, adjusted for sex. Significance of model terms was determined by F-test.

Genotyping

Asthma cases were genotyped as described above in Example 1.

Example 4. SNPs in High Linkage Disequilibrium with IL-33 Axis Genetic Susceptibility Factors

HapMap (International HapMap Consortium, Nature 437(7063):1299-1320, 2005) linkage disequilibrium (LD) data and the 1000 Genomes dataset (McVean et al. Nature. 491: 56-65, 2012) were used to identify SNPs in high LD with the IL-33 axis genetic susceptibility factors (selected SNPs) described in Examples 1 and 3. SNPs in high LD with the selected SNPs rs4988956 (SEQ ID NO: 1); rs10204137 (SEQ ID NO: 2); rs10192036 (SEQ ID NO: 3); rs10192157 (SEQ ID NO: 4); rs10206753 (SEQ ID NO: 5); and/or rs4742165 (SEQ ID NO: 6), such as those presented in Tables 3 and 4, function as alternate SNPs that may be used as biomarkers for IL-33-mediated disorders, e.g., asthma. The genotype at these selected or alternate SNPs can be used in diagnostic methods to determine whether a patient is at increased risk of an IL-33-mediated disorder, e.g., asthma. Further, patients having the equivalent allele of the alternate SNP are likely to be responsive to therapies including an IL-33 axis binding antagonist, for example, an anti-IL-33 antibody or an ST2 binding antagonist, e.g., an ST2-Fc protein. With respect to the SNPs described in Tables 3 and 4, typically the minor allele in a population is the equivalent allele, although it is possible in some cases that the major allele in a population is the equivalent allele. Routine methods in the art can be used to confirm whether a given allele of the SNPs listed in Table 3 and 4 is an equivalent allele.

HapMap samples were separated based on ancestry in order to identify ancestry-specific LD SNPs. These populations were grouped into several categories: (1) ASW (African ancestry in Southwest USA), LWK (Luhya in Webuye, Kenya), MKK (Maasai in Kinyawa, Kenya), and YRI (Yoruba in lbadan, Nigeria; West Africa); (2) CEU (Utah residents with Northern and Western European ancestry from the CEPH collection) and TSI (Toscans in Italy); (3) CHB (Han Chinese in Beijing, China), CHD (Chinese in Metropolitan Denver, Colo.), and JPT (Japanese in Tokyo, Japan); and (4) GIH (Gujarati Indians in Houston, Tex.) and MEX (Mexican ancestry in Los Angeles, Calif.). Within the different ancestry groups, LD was assessed for SNPs in regions around rs4988956 (SEQ ID NO: 1) or rs4742165 (SEQ ID NO: 6), and were included if the D′ values was greater than or equal to 0.6. There was a subset of SNPs where LD information was available in the HapMap data but allele frequency data were not available. For these SNPs, the information from the WOO Genomes Project (1000GP) was used. These SNPs are indicated in the column “Freq Source” in Tables 3 and 4 with the label “1000GP.”

For the SNPs in Tables 3 and 4 that were missing HapMap allele frequencies, the following tags were used:

For CEU ancestry, this is indicated as “EUR_MAF” and comes from the minor allele and frequency of the SNP in 1000 Genomes Phase 1 combined European population. For Asian populations, this is indicated as “ASN_MAF” and comes from the minor allele and frequency of the SNP in the 1000 Genomes Phase 1 combined Asian population. For YRI ancestry, this is indicated as “AFR_MAF” and comes from the minor allele and frequency of the SNP in the 1000 Genomes Phase 1 combined African population.

Table 3 shows SNPs in linkage disequilibrium with rs4988956 (SEQ ID NO: 1). Because rs4988956 (SEQ ID NO: 1), rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), and rs10206753 (SEQ ID NO: 5) are all 100% linked, the SNPs in Table 3 are also in linkage disequilibrium with rs10204137 (SEQ ID NO: 2), rs10192036 (SEQ ID NO: 3), rs10192157 (SEQ ID NO: 4), and rs10206753 (SEQ ID NO: 5). Table 4 shows SNPs in linkage disequilibrium with rs4742165 (SEQ ID NO: 6).

Terms used in Tables 3 and 4 are defined as follows: (1) Ancestry or “ANC” refers to the ancestry of the population used to determine r² and D′ values; (2) “LD_SNP” refers to the SNP in LD with the IL-33 axis genetic susceptibility SNPs rs4988956 (SEQ ID NO: 1) with respect to Table 3 and rs4742165 (SEQ ID NO: 6) with respect to Table 4 (rsID designation comes from NCBI dbSNP build 137 (Jun. 6, 2012)); (3) CHR refers to the chromosome location of the LD_SNP (genome build hg19; UCSC HG19 Genome Assembly; February 2009); (4) BP refers to the DNA base pair location of the LD_SNP (genome build hg19; UCSC HG19 Genome Assembly; February 2009); (5) “RSQ” refers to the r-squared (r²) value of the IL-33 axis genetic susceptibility SNP and the LD_SNP; “DPRIME” refers to the D′ value of the IL-33 axis genetic susceptibility SNP and the LD_SNP; (6) “LD SOURCE” refers to the database from which the LD data for a given LD_SNP was obtained; (7) “FREQ SOURCE” refers to the database (i.e., HapMap or 1000 gp) from which the allele frequency data for a given LD_SNP was obtained; (8) “A1” refers to allele 1 of the LD_SNP; (9) A1 FREQ refers to the allele frequency of allele 1 of the LD_SNP; (10) A2 refers to allele 2 of the LD_SNP; (11) “A2 FREQ” refers to the allele frequency of allele 2 of the LD_SNP; and (12) ALLELES refers to the alleles of the LD_SNP.

TABLE 3 SNPs in high LD with rs4988956 ANC LD_SNP CHR BP RSQ DPRIME LD SOURCE FREQ SOURCE A1 A1 FREQ A2 A2 FREQ ALLELES JPT rs1005043 2 102511858 0.05 0.62 HapMap HapMap A 0.436 G 0.564 A/G CHB rs1005043 2 102511858 0.17 1 HapMap HapMap A 0.53 G 0.47 A/G CHD rs1005043 2 102511858 0.098 0.814 HapMap HapMap A 0.541 G 0.459 A/G CHB rs1014286 2 102515532 0.162 1 HapMap HapMap G 0.524 A 0.476 G/A CHD rs1014286 2 102515532 0.096 0.808 HapMap HapMap G 0.536 A 0.464 G/A JPT rs1014286 2 102515532 0.047 0.623 HapMap HapMap G 0.429 A 0.571 G/A YRI rs10168308 2 102430350 0.019 1 HapMap HapMap G 0.956 A 0.044 G/A MKK rs10168308 2 102430350 0.018 1 HapMap HapMap G 0.975 A 0.025 G/A LWK rs10172153 2 102313878 0.004 0.919 HapMap HapMap T 0.983 C 0.017 T/C MKK rs10172153 2 102313878 0.018 1 HapMap HapMap T 0.976 C 0.024 T/C YRI rs10172153 2 102313878 0.019 1 HapMap HapMap T 0.965 C 0.035 T/C CHB rs10175045 2 102469664 0.132 0.677 HapMap HapMap T 0.643 C 0.357 T/C MKK rs10175045 2 102469664 0.063 0.761 HapMap HapMap T 0.073 C 0.927 T/C YRI rs10175045 2 102469664 0.071 1 HapMap HapMap T 0.027 C 0.973 T/C CEU rs10175045 2 102469664 0.273 1 HapMap HapMap T 0.265 C 0.735 T/C LWK rs10175045 2 102469664 0.129 1 HapMap HapMap T 0.039 C 0.961 T/C ASW rs10175045 2 102469664 0.063 1 HapMap HapMap T 0.019 C 0.981 T/C CHD rs10175045 2 102469664 0.133 0.768 HapMap HapMap T 0.641 C 0.359 T/C GIH rs10175045 2 102469664 0.059 0.713 HapMap HapMap T 0.295 C 0.705 T/C JPT rs10175045 2 102469664 0.102 0.604 HapMap HapMap T 0.605 C 0.395 T/C CHB rs10176820 2 102420852 0.64 1 HapMap HapMap T 0.915 C 0.085 T/C CEU rs10176820 2 102420852 0.193 1 HapMap HapMap T 0.851 C 0.149 T/C ASW rs10176820 2 102420852 0.166 0.738 HapMap HapMap T 0.644 C 0.356 T/C CHD rs10176820 2 102420852 0.713 1 HapMap HapMap T 0.918 C 0.082 T/C GIH rs10176820 2 102420852 0.22 0.74 HapMap HapMap T 0.903 C 0.097 T/C JPT rs10176820 2 102420852 0.654 1 HapMap HapMap T 0.882 C 0.118 T/C LWK rs10176820 2 102420852 0.115 0.825 HapMap HapMap T 0.646 C 0.354 T/C ASW rs10177815 2 102400747 0.055 1 HapMap HapMap C 0.906 T 0.094 C/T LWK rs10177815 2 102400747 0.06 1 HapMap HapMap C 0.839 T 0.161 C/T MKK rs10177815 2 102400747 0.051 1 HapMap HapMap C 0.934 T 0.066 C/T YRI rs10177815 2 102400747 0.038 0.729 HapMap HapMap C 0.819 T 0.181 C/T ASW rs10178191 2 102279524 0.03 1 HapMap HapMap G 0.953 T 0.047 G/T LWK rs10178191 2 102279524 0.005 1 HapMap HapMap G 0.983 T 0.017 G/T MEX rs10178191 2 102279524 0.031 1 HapMap HapMap G 0.99 T 0.01 G/T MKK rs10178191 2 102279524 0.04 1 HapMap HapMap G 0.948 T 0.052 G/T YRI rs10178191 2 102279524 0.015 1 HapMap HapMap G 0.96 T 0.04 G/T CEU rs10178214 2 102225353 0.21 1 HapMap HapMap G 0.839 T 0.161 G/T CHB rs10178214 2 102225353 0.599 0.867 HapMap HapMap G 0.873 T 0.127 G/T CHD rs10178214 2 102225353 0.574 0.758 HapMap HapMap G 0.888 T 0.112 G/T GIH rs10178214 2 102225353 0.217 0.736 HapMap HapMap G 0.903 T 0.097 G/T JPT rs10178214 2 102225353 0.457 0.707 HapMap HapMap G 0.872 T 0.128 G/T MEX rs10178214 2 102225353 0.241 0.636 HapMap HapMap G 0.81 T 0.19 G/T CHB rs10178436 2 102292943 0.141 1 HapMap HapMap T 0.47 C 0.53 T/C CHD rs10178436 2 102292943 0.132 1 HapMap HapMap T 0.512 C 0.488 T/C JPT rs10178436 2 102292943 0.095 1 HapMap HapMap T 0.384 C 0.616 T/C CEU rs10183812 2 102518362 0.047 1 HapMap HapMap T 0.929 C 0.071 T/C CHB rs10183812 2 102518362 0.385 0.68 HapMap HapMap T 0.863 C 0.137 T/C CHD rs10183812 2 102518362 0.431 0.677 HapMap HapMap T 0.894 C 0.106 T/C JPT rs10183812 2 102518362 0.442 0.766 HapMap HapMap T 0.843 C 0.157 T/C ASW rs10189629 2 102245896 0.124 1 HapMap HapMap C 0.811 A 0.189 C/A CEU rs10189629 2 102245896 0.159 1 HapMap HapMap C 0.889 A 0.111 C/A CHB rs10189629 2 102245896 0.366 0.819 HapMap HapMap C 0.911 A 0.089 C/A CHD rs10189629 2 102245896 0.604 1 HapMap HapMap C 0.929 A 0.071 C/A GIH rs10189629 2 102245896 0.283 0.901 HapMap HapMap C 0.915 A 0.085 C/A JPT rs10189629 2 102245896 0.385 1 HapMap HapMap C 0.936 A 0.064 C/A LWK rs10189629 2 102245896 0.081 0.818 HapMap HapMap C 0.722 A 0.278 C/A MEX rs10189629 2 102245896 0.344 1 HapMap HapMap C 0.88 A 0.12 C/A MKK rs10189629 2 102245896 0.257 1 HapMap HapMap C 0.738 A 0.262 C/A YRI rs10189629 2 102245896 0.072 0.77 HapMap HapMap C 0.741 A 0.259 C/A ASW rs10192036 2 102334643 1 1 HapMap HapMap C 0.302 A 0.698 C/A CEU rs10192036 2 102334643 1 1 HapMap HapMap C 0.593 A 0.407 C/A CHB rs10192036 2 102334643 1 1 HapMap HapMap C 0.857 A 0.143 C/A CHD rs10192036 2 102334643 1 1 HapMap HapMap C 0.888 A 0.112 C/A GIH rs10192036 2 102334643 1 1 HapMap HapMap C 0.787 A 0.213 C/A JPT rs10192036 2 102334643 1 1 HapMap HapMap C 0.843 A 0.157 C/A LWK rs10192036 2 102334643 1 1 HapMap HapMap C 0.239 A 0.761 C/A MEX rs10192036 2 102334643 1 1 HapMap HapMap C 0.72 A 0.28 C/A MKK rs10192036 2 102334643 1 1 HapMap HapMap C 0.42 A 0.58 C/A YRI rs10192036 2 102334643 1 1 HapMap HapMap C 0.235 A 0.765 C/A ASW rs10192157 2 102334788 1 1 HapMap HapMap C 0.302 T 0.698 C/T CEU rs10192157 2 102334788 1 1 HapMap HapMap C 0.593 T 0.407 C/T CHB rs10192157 2 102334788 1 1 HapMap HapMap C 0.857 T 0.143 C/T CHD rs10192157 2 102334788 1 1 HapMap HapMap C 0.888 T 0.112 C/T GIH rs10192157 2 102334788 1 1 HapMap HapMap C 0.79 T 0.21 C/T JPT rs10192157 2 102334788 1 1 HapMap HapMap C 0.849 T 0.151 C/T LWK rs10192157 2 102334788 1 1 HapMap HapMap C 0.239 T 0.761 C/T MEX rs10192157 2 102334788 1 1 HapMap HapMap C 0.73 T 0.27 C/T MKK rs10192157 2 102334788 1 1 HapMap HapMap C 0.42 T 0.58 C/T YRI rs10192157 2 102334788 1 1 HapMap HapMap C 0.235 T 0.765 C/T CHD rs10194822 2 102531936 0.039 0.752 HapMap HapMap T 0.647 G 0.353 T/G ASW rs10197310 2 102386462 0.119 0.699 HapMap HapMap T 0.689 A 0.311 T/A CEU rs10197310 2 102386462 0.156 0.863 HapMap HapMap T 0.832 A 0.168 T/A CHB rs10197310 2 102386462 0.632 1 HapMap HapMap T 0.905 A 0.095 T/A CHD rs10197310 2 102386462 0.713 1 HapMap HapMap T 0.917 A 0.083 T/A GIH rs10197310 2 102386462 0.22 0.74 HapMap HapMap T 0.903 A 0.097 T/A JPT rs10197310 2 102386462 0.753 1 HapMap HapMap T 0.863 A 0.137 T/A LWK rs10197310 2 102386462 0.068 0.649 HapMap HapMap T 0.661 A 0.339 T/A MEX rs10197310 2 102386462 0.364 0.813 HapMap HapMap T 0.82 A 0.18 T/A ASW rs10197862 2 102332981 0.214 1 HapMap HapMap A 0.726 G 0.274 A/G CEU rs10197862 2 102332981 0.176 1 HapMap HapMap A 0.872 G 0.128 A/G CHB rs10197862 2 102332981 0.632 1 HapMap HapMap A 0.905 G 0.095 A/G CHD rs10197862 2 102332981 0.713 1 HapMap HapMap A 0.918 G 0.082 A/G GIH rs10197862 2 102332981 0.375 1 HapMap HapMap A 0.909 G 0.091 A/G JPT rs10197862 2 102332981 0.753 1 HapMap HapMap A 0.872 G 0.128 A/G LWK rs10197862 2 102332981 0.093 1 HapMap HapMap A 0.772 G 0.228 A/G MEX rs10197862 2 102332981 0.464 1 HapMap HapMap A 0.85 G 0.15 A/G MKK rs10197862 2 102332981 0.296 1 HapMap HapMap A 0.71 G 0.29 A/G YRI rs10197862 2 102332981 0.216 1 HapMap HapMap A 0.668 G 0.332 A/G CHD rs10201184 2 102455510 0.079 0.706 HapMap HapMap G 0.559 C 0.441 G/C JPT rs10201184 2 102455510 0.058 0.65 HapMap HapMap G 0.453 C 0.547 G/C ASW rs10202813 2 102386172 0.119 0.699 HapMap HapMap G 0.689 T 0.311 G/T CEU rs10202813 2 102386172 0.193 1 HapMap HapMap G 0.842 T 0.158 G/T CHB rs10202813 2 102386172 0.632 1 HapMap HapMap G 0.905 T 0.095 G/T CHD rs10202813 2 102386172 0.713 1 HapMap HapMap G 0.917 T 0.083 G/T GIH rs10202813 2 102386172 0.22 0.74 HapMap HapMap G 0.903 T 0.097 G/T JPT rs10202813 2 102386172 0.753 1 HapMap HapMap G 0.872 T 0.128 G/T LWK rs10202813 2 102386172 0.099 0.805 HapMap HapMap G 0.663 T 0.337 G/T MEX rs10202813 2 102386172 0.364 0.813 HapMap HapMap G 0.82 T 0.18 G/T ASW rs10204137 2 102334644 1 1 HapMap HapMap A 0.302 G 0.698 A/G CEU rs10204137 2 102334644 1 1 HapMap HapMap A 0.593 G 0.407 A/G CHB rs10204137 2 102334644 1 1 HapMap HapMap A 0.857 G 0.143 A/G CHD rs10204137 2 102334644 1 1 HapMap HapMap A 0.888 G 0.112 A/G GIH rs10204137 2 102334644 1 1 HapMap HapMap A 0.79 G 0.21 A/G JPT rs10204137 2 102334644 1 1 HapMap HapMap A 0.849 G 0.151 A/G LWK rs10204137 2 102334644 1 1 HapMap HapMap A 0.239 G 0.761 A/G MEX rs10204137 2 102334644 1 1 HapMap HapMap A 0.73 G 0.27 A/G MKK rs10204137 2 102334644 1 1 HapMap HapMap A 0.42 G 0.58 A/G YRI rs10204137 2 102334644 1 1 HapMap HapMap A 0.235 G 0.765 A/G ASW rs10204837 2 102344162 0.877 1 HapMap HapMap C 0.349 A 0.651 C/A CEU rs10204837 2 102344162 1 1 HapMap HapMap C 0.593 A 0.407 C/A CHB rs10204837 2 102344162 1 1 HapMap HapMap C 0.857 A 0.143 C/A CHD rs10204837 2 102344162 1 1 HapMap HapMap C 0.888 A 0.112 C/A GIH rs10204837 2 102344162 1 1 HapMap HapMap C 0.79 A 0.21 C/A JPT rs10204837 2 102344162 1 1 HapMap HapMap C 0.849 A 0.151 C/A LWK rs10204837 2 102344162 0.555 1 HapMap HapMap C 0.361 A 0.639 C/A MEX rs10204837 2 102344162 1 1 HapMap HapMap C 0.73 A 0.27 C/A MKK rs10204837 2 102344162 0.855 1 HapMap HapMap C 0.458 A 0.542 C/A YRI rs10204837 2 102344162 0.916 1 HapMap HapMap C 0.265 A 0.735 C/A ASW rs10206753 2 102334794 1 1 HapMap HapMap T 0.302 C 0.698 T/C CEU rs10206753 2 102334794 1 1 HapMap HapMap T 0.589 C 0.411 T/C CHB rs10206753 2 102334794 1 1 HapMap HapMap T 0.857 C 0.143 T/C CHD rs10206753 2 102334794 1 1 HapMap HapMap T 0.888 C 0.112 T/C GIH rs10206753 2 102334794 1 1 HapMap HapMap T 0.79 C 0.21 T/C JPT rs10206753 2 102334794 1 1 HapMap HapMap T 0.849 C 0.151 T/C LWK rs10206753 2 102334794 1 1 HapMap HapMap T 0.239 C 0.761 T/C MEX rs10206753 2 102334794 1 1 HapMap HapMap T 0.73 C 0.27 T/C MKK rs10206753 2 102334794 1 1 HapMap HapMap T 0.42 C 0.58 T/C YRI rs10206753 2 102334794 1 1 HapMap HapMap T 0.235 C 0.765 T/C CHD rs10207579 2 102469721 0.125 0.626 HapMap HapMap C 0.714 T 0.286 C/T ASW rs10210176 2 102445948 0.119 0.699 HapMap HapMap C 0.689 A 0.311 C/A CEU rs10210176 2 102445948 0.193 1 HapMap HapMap C 0.835 A 0.165 C/A CHB rs10210176 2 102445948 0.632 1 HapMap HapMap C 0.905 A 0.095 C/A CHD rs10210176 2 102445948 0.713 1 HapMap HapMap C 0.918 A 0.082 C/A GIH rs10210176 2 102445948 0.22 0.74 HapMap HapMap C 0.903 A 0.097 C/A JPT rs10210176 2 102445948 0.753 1 HapMap HapMap C 0.872 A 0.128 C/A LWK rs10210176 2 102445948 0.074 0.67 HapMap HapMap C 0.656 A 0.344 C/A MEX rs10210176 2 102445948 0.405 0.826 HapMap HapMap C 0.81 A 0.19 C/A ASW rs1030021 2 102167910 0.119 0.699 HapMap HapMap A 0.651 C 0.349 A/C LWK rs1030021 2 102167910 0.098 1 HapMap HapMap A 0.758 C 0.242 A/C MKK rs1030021 2 102167910 0.157 0.734 HapMap HapMap A 0.713 C 0.287 A/C CHB rs1035127 2 102386351 0.141 1 HapMap HapMap A 0.476 G 0.524 A/G CHD rs1035127 2 102386351 0.128 1 HapMap HapMap A 0.5 G 0.5 A/G GIH rs1035127 2 102386351 0.155 0.821 HapMap HapMap A 0.455 G 0.545 A/G ASW rs1035127 2 102386351 0.022 1 HapMap HapMap A 0.057 G 0.943 A/G CEU rs1035127 2 102386351 0.209 1 HapMap HapMap A 0.204 G 0.796 A/G JPT rs1035127 2 102386351 0.105 1 HapMap HapMap A 0.413 G 0.587 A/G LWK rs1035127 2 102386351 0.032 0.764 HapMap HapMap A 0.15 G 0.85 A/G MEX rs1035127 2 102386351 0.333 1 HapMap HapMap A 0.46 G 0.54 A/G MKK rs1035127 2 102386351 0.125 0.653 HapMap HapMap A 0.175 G 0.825 A/G ASW rs1035130 2 102367834 0.448 1 HapMap HapMap C 0.83 T 0.17 C/T CHB rs1035130 2 102367834 0.038 0.636 HapMap HapMap C 0.639 T 0.361 C/T CHD rs1035130 2 102367834 0.043 0.766 HapMap HapMap C 0.637 T 0.363 C/T CEU rs1035130 2 102367834 0.301 1 HapMap HapMap C 0.723 T 0.277 C/T GIH rs1035130 2 102367834 0.112 1 HapMap HapMap C 0.699 T 0.301 C/T JPT rs1035130 2 102367834 0.167 1 HapMap HapMap C 0.583 T 0.417 C/T LWK rs1035130 2 102367834 0.248 1 HapMap HapMap C 0.928 T 0.072 C/T MEX rs1035130 2 102367834 0.059 0.78 HapMap HapMap C 0.78 T 0.22 C/T MKK rs1035130 2 102367834 0.122 0.902 HapMap HapMap C 0.902 T 0.098 C/T CEU rs1035131 2 102229073 0.345 0.774 HapMap HapMap T 0.588 G 0.412 T/G CHB rs1035131 2 102229073 0.211 0.836 HapMap HapMap T 0.315 G 0.685 T/G CHD rs1035131 2 102229073 0.302 0.915 HapMap HapMap T 0.259 G 0.741 T/G GIH rs1035131 2 102229073 0.429 0.95 HapMap HapMap T 0.358 G 0.642 T/G JPT rs1035131 2 102229073 0.144 0.665 HapMap HapMap T 0.36 G 0.64 T/G MEX rs1035131 2 102229073 0.091 0.628 HapMap HapMap T 0.62 G 0.38 T/G GIH rs10439410 2 102357220 0.703 0.924 HapMap HapMap G 0.756 T 0.244 G/T JPT rs10439410 2 102357220 0.85 1 HapMap HapMap G 0.831 T 0.169 G/T ASW rs10439410 2 102357220 0.408 0.796 HapMap HapMap G 0.236 T 0.764 G/T CEU rs10439410 2 102357220 0.759 1 HapMap HapMap G 0.482 T 0.518 G/T CHB rs10439410 2 102357220 0.564 0.892 HapMap HapMap G 0.833 T 0.167 G/T CHD rs10439410 2 102357220 0.615 0.874 HapMap HapMap G 0.865 T 0.135 G/T MEX rs10439410 2 102357220 0.709 0.939 HapMap HapMap G 0.68 T 0.32 G/T MKK rs10439410 2 102357220 0.278 0.732 HapMap HapMap G 0.273 T 0.727 G/T CEU rs10469856 2 102255261 0.245 0.637 HapMap HapMap A 0.336 T 0.664 A/T JPT rs10469856 2 102255261 0.01 1 HapMap HapMap A 0.035 T 0.965 A/T ASW rs10490204 2 102422966 0.254 1 HapMap HapMap A 0.904 C 0.096 A/C LWK rs10490204 2 102422966 0.056 1 HapMap HapMap A 0.983 C 0.017 A/C MEX rs10490204 2 102422966 0.071 0.804 HapMap HapMap A 0.76 C 0.24 A/C MKK rs10490204 2 102422966 0.023 0.718 HapMap HapMap A 0.969 C 0.031 A/C CEU rs10490204 2 102422966 0.301 1 HapMap HapMap A 0.721 C 0.279 A/C CHD rs10490204 2 102422966 0.041 0.76 HapMap HapMap A 0.641 C 0.359 A/C GIH rs10490204 2 102422966 0.115 1 HapMap HapMap A 0.693 C 0.307 A/C JPT rs10490204 2 102422966 0.173 1 HapMap HapMap A 0.581 C 0.419 A/C YRI rs10490204 2 102422966 0.143 0.711 HapMap HapMap A 0.92 C 0.08 A/C ASW rs10515921 2 102347450 0.022 1 HapMap HapMap T 0.953 G 0.047 T/G CEU rs10515921 2 102347450 0.302 1 HapMap HapMap T 0.845 G 0.155 T/G CHB rs10515921 2 102347450 0.073 1 HapMap HapMap T 0.994 G 0.006 T/G GIH rs10515921 2 102347450 0.481 1 HapMap HapMap T 0.886 G 0.114 T/G LWK rs10515921 2 102347450 0.007 1 HapMap HapMap T 0.978 G 0.022 T/G MEX rs10515921 2 102347450 0.162 1 HapMap HapMap T 0.94 G 0.06 T/G MKK rs10515921 2 102347450 0.043 1 HapMap HapMap T 0.944 G 0.056 T/G YRI rs10515921 2 102347450 0.035 1 HapMap HapMap T 0.938 G 0.062 T/G ASW rs10515922 2 102281086 0.031 1 HapMap HapMap A 0.991 G 0.009 A/G CHB rs10515922 2 102281086 0.029 1 HapMap HapMap A 0.881 G 0.119 A/G CHD rs10515922 2 102281086 0.015 1 HapMap HapMap A 0.894 G 0.106 A/G JPT rs10515922 2 102281086 0.058 1 HapMap HapMap A 0.762 G 0.238 A/G LWK rs10515922 2 102281086 0.018 1 HapMap HapMap A 0.994 G 0.006 A/G MEX rs10515922 2 102281086 0.013 1 HapMap HapMap A 0.96 G 0.04 A/G YRI rs11123914 2 102213164 0.007 1 HapMap HapMap T 0.032 C 0.968 T/C CEU rs11123915 2 102247255 0.245 0.637 HapMap HapMap G 0.336 T 0.664 G/T JPT rs11123915 2 102247255 0.01 1 HapMap HapMap G 0.041 T 0.959 G/T ASW rs11123923 2 102334276 0.643 1 HapMap HapMap C 0.774 A 0.226 C/A CEU rs11123923 2 102334276 0.414 1 HapMap HapMap C 0.611 A 0.389 C/A CHB rs11123923 2 102334276 0.111 1 HapMap HapMap C 0.613 A 0.387 C/A CHD rs11123923 2 102334276 0.074 1 HapMap HapMap C 0.619 A 0.381 C/A GIH rs11123923 2 102334276 0.135 1 HapMap HapMap C 0.659 A 0.341 C/A JPT rs11123923 2 102334276 0.21 1 HapMap HapMap C 0.541 A 0.459 C/A LWK rs11123923 2 102334276 0.562 1 HapMap HapMap C 0.85 A 0.15 C/A MEX rs11123923 2 102334276 0.125 1 HapMap HapMap C 0.73 A 0.27 C/A MKK rs11123923 2 102334276 0.615 1 HapMap HapMap C 0.692 A 0.308 C/A YRI rs11123923 2 102334276 0.466 1 HapMap HapMap C 0.872 A 0.128 C/A JPT rs11123936 2 102534189 0.442 0.766 HapMap HapMap C 0.843 T 0.157 C/T CHB rs11123936 2 102534189 0.385 0.68 HapMap HapMap C 0.863 T 0.137 C/T CHD rs11123936 2 102534189 0.431 0.677 HapMap HapMap C 0.894 T 0.106 C/T CEU rs11123936 2 102534189 0.047 1 HapMap HapMap C 0.929 T 0.071 C/T ASW rs1135354 2 102380734 0.448 1 HapMap HapMap T 0.83 G 0.17 T/G CEU rs1135354 2 102380734 0.301 1 HapMap HapMap T 0.721 G 0.279 T/G CHB rs1135354 2 102380734 0.038 0.642 HapMap HapMap T 0.637 G 0.363 T/G CHD rs1135354 2 102380734 0.041 0.76 HapMap HapMap T 0.641 G 0.359 T/G GIH rs1135354 2 102380734 0.112 1 HapMap HapMap T 0.699 G 0.301 T/G JPT rs1135354 2 102380734 0.173 1 HapMap HapMap T 0.581 G 0.419 T/G LWK rs1135354 2 102380734 0.248 1 HapMap HapMap T 0.928 G 0.072 T/G MEX rs1135354 2 102380734 0.059 0.78 HapMap HapMap T 0.78 G 0.22 T/G MKK rs1135354 2 102380734 0.116 0.898 HapMap HapMap T 0.906 G 0.094 T/G MEX rs11465597 2 102353645 0.021 1 HapMap HapMap A 0.94 G 0.06 A/G MKK rs11465597 2 102353645 0.391 1 HapMap HapMap A 0.78 G 0.22 A/G LWK rs11465597 2 102353645 0.376 1 HapMap HapMap A 0.894 G 0.106 A/G ASW rs11465597 2 102353645 0.24 1 HapMap HapMap A 0.877 G 0.123 A/G CEU rs11465597 2 102353645 0.056 1 HapMap HapMap A 0.889 G 0.111 A/G CHD rs11465597 2 102353645 0.002 0.614 HapMap HapMap A 0.965 G 0.035 A/G GIH rs11465597 2 102353645 0.018 1 HapMap HapMap A 0.938 G 0.062 A/G YRI rs11465597 2 102353645 0.2 1 HapMap HapMap A 0.934 G 0.066 A/G ASW rs11465598 2 102353696 0.055 1 HapMap HapMap A 0.906 G 0.094 A/G LWK rs11465598 2 102353696 0.022 1 HapMap HapMap A 0.933 G 0.067 A/G MKK rs11465598 2 102353696 0.084 1 HapMap HapMap A 0.897 G 0.103 A/G YRI rs11465598 2 102353696 0.035 1 HapMap HapMap A 0.938 G 0.062 A/G MEX rs11465635 2 102364515 0.004 1 HapMap HapMap G 0.99 A 0.01 G/A MKK rs11465635 2 102364515 0.005 1 HapMap HapMap G 0.997 A 0.003 G/A YRI rs11465635 2 102364515 0.023 1 HapMap HapMap G 0.996 A 0.004 G/A CEU rs11465644 2 102367777 0.013 1 HapMap HapMap C 0.991 A 0.009 C/A CHB rs11465644 2 102367777 0.002 1 HapMap HapMap C 0.994 A 0.006 C/A CHD rs11465644 2 102367777 0.001 1 HapMap HapMap C 0.994 A 0.006 C/A GIH rs11465644 2 102367777 0.021 1 HapMap HapMap C 0.994 A 0.006 C/A LWK rs11465644 2 102367777 0.002 1 HapMap HapMap C 0.994 A 0.006 C/A MEX rs11465644 2 102367777 0.004 1 HapMap HapMap C 0.98 A 0.02 C/A YRI rs11465644 2 102367777 0.023 1 HapMap HapMap C 0.996 A 0.004 C/A ASW rs11465648 2 102369872 0.031 1 HapMap HapMap G 0.99 A 0.01 G/A CHD rs11465648 2 102369872 0.002 1 HapMap HapMap G 0.988 A 0.012 G/A GIH rs11465648 2 102369872 0.023 1 HapMap HapMap G 0.994 A 0.006 G/A MEX rs11465648 2 102369872 0.009 1 HapMap HapMap G 0.969 A 0.031 G/A MKK rs11465657 2 102380153 0.005 1 HapMap HapMap C 0.997 T 0.003 C/T LWK rs11465658 2 102380449 0.018 1 HapMap HapMap G 0.994 A 0.006 G/A YRI rs11465658 2 102380449 0.023 1 HapMap HapMap G 0.996 A 0.004 G/A CEU rs11465670 2 102400872 0.264 1 HapMap HapMap T 0.845 C 0.155 T/C CHB rs11465670 2 102400872 0.223 1 HapMap HapMap T 0.976 C 0.024 T/C LWK rs11465670 2 102400872 0.057 1 HapMap HapMap T 0.848 C 0.152 T/C MEX rs11465670 2 102400872 0.128 1 HapMap HapMap T 0.95 C 0.05 T/C MKK rs11465670 2 102400872 0.132 0.882 HapMap HapMap T 0.81 C 0.19 T/C CHD rs11465670 2 102400872 0.093 0.697 HapMap HapMap T 0.976 C 0.024 T/C GIH rs11465670 2 102400872 0.481 1 HapMap HapMap T 0.886 C 0.114 T/C JPT rs11465670 2 102400872 0.185 1 HapMap HapMap T 0.983 C 0.017 T/C ASW rs11465676 2 102402097 0.03 1 HapMap HapMap T 0.953 C 0.047 T/C LWK rs11465676 2 102402097 0.046 1 HapMap HapMap T 0.872 C 0.128 T/C MKK rs11465676 2 102402097 0.023 1 HapMap HapMap T 0.969 C 0.031 T/C ASW rs11465684 2 102404056 0.038 1 HapMap HapMap C 0.943 T 0.057 C/T LWK rs11465684 2 102404056 0.046 1 HapMap HapMap C 0.872 T 0.128 C/T MKK rs11465684 2 102404056 0.023 1 HapMap HapMap C 0.969 T 0.031 C/T ASW rs11465687 2 102406175 0.055 1 HapMap HapMap C 0.906 T 0.094 C/T LWK rs11465687 2 102406175 0.06 1 HapMap HapMap C 0.839 T 0.161 C/T YRI rs11465687 2 102406175 0.036 0.713 HapMap HapMap C 0.817 T 0.183 C/T CEU rs11465699 2 102421199 0.047 1 HapMap HapMap G 0.96 A 0.04 G/A GIH rs11465699 2 102421199 0.002 1 HapMap HapMap G 0.994 A 0.006 G/A ASW rs11465707 2 102425454 0.066 1 HapMap HapMap G 0.972 A 0.028 G/A CEU rs11465707 2 102425454 0.014 1 HapMap HapMap G 0.991 A 0.009 G/A MKK rs11465707 2 102425454 0.013 1 HapMap HapMap G 0.982 A 0.018 G/A MEX rs11465716 2 102428208 0.008 1 HapMap HapMap G 0.98 A 0.02 G/A ASW rs11465716 2 102428208 0.007 1 HapMap HapMap G 0.991 A 0.009 G/A CHB rs11465716 2 102428208 0.002 1 HapMap HapMap G 0.994 A 0.006 G/A GIH rs11465716 2 102428208 0 1 HapMap HapMap G 0.994 A 0.006 G/A LWK rs11465716 2 102428208 0.002 1 HapMap HapMap G 0.994 A 0.006 G/A YRI rs11465716 2 102428208 0.004 1 HapMap HapMap G 0.987 A 0.013 G/A ASW rs11465722 2 102429921 0.063 1 HapMap HapMap C 0.953 T 0.047 C/T CEU rs11465722 2 102429921 0.21 1 HapMap HapMap C 0.881 T 0.119 C/T LWK rs11465722 2 102429921 0.002 1 HapMap HapMap C 0.994 T 0.006 C/T MEX rs11465722 2 102429921 0.196 1 HapMap HapMap C 0.94 T 0.06 C/T YRI rs11465722 2 102429921 0.019 1 HapMap HapMap C 0.96 T 0.04 C/T ASW rs11465724 2 102430287 0.066 1 HapMap HapMap C 0.972 T 0.028 C/T CEU rs11465724 2 102430287 0.047 1 HapMap HapMap C 0.951 T 0.049 C/T GIH rs11465724 2 102430287 0.002 1 HapMap HapMap C 0.994 T 0.006 C/T MEX rs11465724 2 102430287 0.004 1 HapMap HapMap C 0.99 T 0.01 C/T MKK rs11465724 2 102430287 0.071 1 HapMap HapMap C 0.951 T 0.049 C/T CHD rs11465730 2 102433290 0.081 0.707 HapMap HapMap A 0.56 G 0.44 A/G JPT rs11465730 2 102433290 0.058 0.65 HapMap HapMap A 0.453 G 0.547 A/G CEU rs11465732 2 102434255 0.039 1 HapMap HapMap C 0.938 T 0.062 C/T CHB rs11465732 2 102434255 0.034 1 HapMap HapMap C 0.857 T 0.143 C/T CHD rs11465732 2 102434255 0.02 1 HapMap HapMap C 0.865 T 0.135 C/T GIH rs11465732 2 102434255 0.013 1 HapMap HapMap C 0.955 T 0.045 C/T JPT rs11465732 2 102434255 0.058 1 HapMap HapMap C 0.779 T 0.221 C/T LWK rs11465732 2 102434255 0.036 1 HapMap HapMap C 0.989 T 0.011 C/T MEX rs11465732 2 102434255 0.004 1 HapMap HapMap C 0.98 T 0.02 C/T MKK rs11465732 2 102434255 0.005 1 HapMap HapMap C 0.997 T 0.003 C/T YRI rs11465732 2 102434255 0.023 1 HapMap HapMap C 0.982 T 0.018 C/T ASW rs11465732 2 102434255 0.063 1 HapMap HapMap C 0.981 T 0.019 C/T LWK rs11465739 2 102435269 0.002 1 HapMap HapMap C 0.994 T 0.006 C/T MKK rs11465739 2 102435269 0.005 1 HapMap HapMap C 0.997 T 0.003 C/T YRI rs11465739 2 102435269 0.023 1 HapMap HapMap C 0.996 T 0.004 C/T ASW rs11674302 2 102253560 0.229 1 HapMap HapMap T 0.726 C 0.274 T/C CEU rs11674302 2 102253560 0.159 1 HapMap HapMap T 0.889 C 0.111 T/C CHB rs11674302 2 102253560 0.366 0.819 HapMap HapMap T 0.911 C 0.089 T/C CHD rs11674302 2 102253560 0.604 1 HapMap HapMap T 0.929 C 0.071 T/C GIH rs11674302 2 102253560 0.283 0.901 HapMap HapMap T 0.915 C 0.085 T/C JPT rs11674302 2 102253560 0.385 1 HapMap HapMap T 0.936 C 0.064 T/C LWK rs11674302 2 102253560 0.069 0.708 HapMap HapMap T 0.694 C 0.306 T/C MEX rs11674302 2 102253560 0.344 1 HapMap HapMap T 0.88 C 0.12 T/C MKK rs11674302 2 102253560 0.33 0.936 HapMap HapMap T 0.656 C 0.344 T/C YRI rs11674302 2 102253560 0.142 0.862 HapMap HapMap T 0.673 C 0.327 T/C ASW rs11687768 2 102392170 0.093 0.648 HapMap HapMap A 0.716 G 0.284 A/G CEU rs11687768 2 102392170 0.193 1 HapMap HapMap A 0.851 G 0.149 A/G CHB rs11687768 2 102392170 0.632 1 HapMap HapMap A 0.916 G 0.084 A/G CHD rs11687768 2 102392170 0.713 1 HapMap HapMap A 0.918 G 0.082 A/G GIH rs11687768 2 102392170 0.22 0.74 HapMap HapMap A 0.903 G 0.097 A/G JPT rs11687768 2 102392170 0.753 1 HapMap HapMap A 0.872 G 0.128 A/G MEX rs11687768 2 102392170 0.364 0.813 HapMap HapMap A 0.82 G 0.18 A/G ASW rs11688802 2 102492971 0.031 1 HapMap HapMap A 0.991 G 0.009 A/G CEU rs11688802 2 102492971 0.039 1 HapMap HapMap A 0.942 G 0.058 A/G MEX rs11688802 2 102492971 0.004 1 HapMap HapMap A 0.98 G 0.02 A/G CEU rs11690532 2 102442858 0.2 1 HapMap HapMap C 0.809 T 0.191 C/T CHD rs11690532 2 102442858 0.002 1 HapMap HapMap C 0.988 T 0.012 C/T MEX rs11690532 2 102442858 0.017 0.617 HapMap HapMap C 0.885 T 0.115 C/T MKK rs11690532 2 102442858 0.02 1 HapMap HapMap C 0.986 T 0.014 C/T ASW rs11692065 2 102250407 0.124 1 HapMap HapMap C 0.811 T 0.189 C/T CEU rs11692065 2 102250407 0.159 1 HapMap HapMap C 0.889 T 0.111 C/T CHB rs11692065 2 102250407 0.366 0.819 HapMap HapMap C 0.911 T 0.089 C/T CHD rs11692065 2 102250407 0.603 1 HapMap HapMap C 0.929 T 0.071 C/T GIH rs11692065 2 102250407 0.283 0.901 HapMap HapMap C 0.915 T 0.085 C/T JPT rs11692065 2 102250407 0.385 1 HapMap HapMap C 0.936 T 0.064 C/T LWK rs11692065 2 102250407 0.081 0.818 HapMap HapMap C 0.722 T 0.278 C/T MEX rs11692065 2 102250407 0.322 1 HapMap HapMap C 0.888 T 0.112 C/T MKK rs11692065 2 102250407 0.257 1 HapMap HapMap C 0.738 T 0.262 C/T YRI rs11692065 2 102250407 0.068 0.752 HapMap HapMap C 0.748 T 0.252 C/T MKK rs11692230 2 102221497 0.269 0.675 HapMap HapMap A 0.704 G 0.296 A/G JPT rs11692304 2 102461836 0.071 1 HapMap HapMap G 0.773 A 0.227 G/A CHD rs11692304 2 102461836 0.035 1 HapMap HapMap G 0.782 A 0.218 G/A MKK rs11693697 2 102282094 0.015 1 HapMap HapMap T 0.99 C 0.01 T/C MEX rs11695455 2 102407134 0 1 HapMap HapMap A 0.99 G 0.01 A/G CEU rs11886793 2 102438652 0.337 0.656 HapMap HapMap T 0.646 G 0.354 T/G GIH rs11886793 2 102438652 0.319 0.685 HapMap HapMap T 0.847 G 0.153 T/G MEX rs11886793 2 102438652 0.209 0.671 HapMap HapMap T 0.86 G 0.14 T/G ASW rs11888547 2 102249158 0.031 1 HapMap HapMap G 0.981 T 0.019 G/T LWK rs11888547 2 102249158 0.054 1 HapMap HapMap G 0.983 T 0.017 G/T YRI rs11888547 2 102249158 0.074 0.711 HapMap HapMap G 0.96 T 0.04 G/T ASW rs11891965 2 102386928 0.055 1 HapMap HapMap C 0.906 T 0.094 C/T LWK rs11891965 2 102386928 0.063 1 HapMap HapMap C 0.833 T 0.167 C/T MKK rs11891965 2 102386928 0.051 1 HapMap HapMap C 0.934 T 0.066 C/T YRI rs11891965 2 102386928 0.038 0.729 HapMap HapMap C 0.819 T 0.181 C/T ASW rs11900775 2 102169654 0.046 1 HapMap HapMap T 0.906 C 0.094 T/C CHB rs11900775 2 102169654 0.073 1 HapMap HapMap T 0.97 C 0.03 T/C MKK rs11900775 2 102169654 0.039 0.806 HapMap HapMap T 0.923 C 0.077 T/C CEU rs11903354 2 102176860 0.076 0.771 HapMap HapMap T 0.915 C 0.085 T/C CHB rs11903354 2 102176860 0.012 1 HapMap HapMap T 0.929 C 0.071 T/C GIH rs11903354 2 102176860 0.021 1 HapMap HapMap T 0.994 C 0.006 T/C JPT rs11903354 2 102176860 0.005 1 HapMap HapMap T 0.977 C 0.023 T/C MEX rs11903354 2 102176860 0.095 1 HapMap HapMap T 0.97 C 0.03 T/C MKK rs11903354 2 102176860 0.035 0.71 HapMap HapMap T 0.913 C 0.087 T/C JPT rs12053526 2 102481372 0.6 1 HapMap HapMap C 0.872 T 0.128 C/T LWK rs12053526 2 102481372 0.013 1 HapMap HapMap C 0.961 T 0.039 C/T MEX rs12053526 2 102481372 0.031 1 HapMap HapMap C 0.99 T 0.01 C/T MKK rs12053526 2 102481372 0.013 1 HapMap HapMap C 0.983 T 0.017 C/T CHD rs12053526 2 102481372 0.604 1 HapMap HapMap C 0.929 T 0.071 C/T ASW rs12053526 2 102481372 0.008 1 HapMap HapMap C 0.961 T 0.039 C/T CHB rs12053526 2 102481372 0.546 1 HapMap HapMap C 0.911 T 0.089 C/T GIH rs12053526 2 102481372 0.021 1 HapMap HapMap C 0.994 T 0.006 C/T CEU rs12469892 2 102262216 0.172 0.882 HapMap HapMap G 0.821 A 0.179 G/A CHB rs12469892 2 102262216 0.052 1 HapMap HapMap G 0.774 A 0.226 G/A CHD rs12469892 2 102262216 0.021 0.714 HapMap HapMap G 0.753 A 0.247 G/A GIH rs12469892 2 102262216 0.132 0.893 HapMap HapMap G 0.625 A 0.375 G/A MEX rs12475055 2 102245323 0.123 0.68 HapMap HapMap A 0.58 C 0.42 A/C CEU rs12475055 2 102245323 0.572 0.787 HapMap HapMap A 0.496 C 0.504 A/C CHB rs12475055 2 102245323 0.396 0.776 HapMap HapMap A 0.179 C 0.821 A/C CHD rs12475055 2 102245323 0.582 0.872 HapMap HapMap A 0.141 C 0.859 A/C GIH rs12475055 2 102245323 0.436 0.864 HapMap HapMap A 0.312 C 0.688 A/C CHD rs12712133 2 102232705 0.021 0.972 HapMap HapMap A 0.153 G 0.847 A/G JPT rs12712133 2 102232705 0.058 1 HapMap HapMap A 0.233 G 0.767 A/G CHB rs12712135 2 102297380 0.144 1 HapMap HapMap A 0.47 G 0.53 A/G CHD rs12712135 2 102297380 0.131 1 HapMap HapMap A 0.506 G 0.494 A/G JPT rs12712135 2 102297380 0.1 1 HapMap HapMap A 0.39 G 0.61 A/G ASW rs12712142 2 102327016 0.28 0.66 HapMap HapMap C 0.594 A 0.406 C/A CEU rs12712142 2 102327016 0.414 1 HapMap HapMap C 0.611 A 0.389 C/A CHB rs12712142 2 102327016 0.111 1 HapMap HapMap C 0.613 A 0.387 C/A CHD rs12712142 2 102327016 0.076 1 HapMap HapMap C 0.624 A 0.376 C/A GIH rs12712142 2 102327016 0.132 1 HapMap HapMap C 0.667 A 0.333 C/A JPT rs12712142 2 102327016 0.216 1 HapMap HapMap C 0.535 A 0.465 C/A MEX rs12712142 2 102327016 0.125 1 HapMap HapMap C 0.73 A 0.27 C/A CEU rs12712157 2 102531561 0.145 0.859 HapMap HapMap T 0.19 C 0.81 T/C CHB rs12712157 2 102531561 0.155 1 HapMap HapMap T 0.518 C 0.482 T/C CHD rs12712157 2 102531561 0.129 1 HapMap HapMap T 0.506 C 0.494 T/C JPT rs12712157 2 102531561 0.111 1 HapMap HapMap T 0.413 C 0.587 T/C CHB rs12905 2 102326439 0.083 1 HapMap HapMap G 0.649 A 0.351 G/A CHD rs12905 2 102326439 0.065 1 HapMap HapMap G 0.659 A 0.341 G/A MKK rs12905 2 102326439 0.093 1 HapMap HapMap G 0.937 A 0.063 G/A ASW rs12905 2 102326439 0.361 1 HapMap HapMap G 0.887 A 0.113 G/A CEU rs12905 2 102326439 0.301 1 HapMap HapMap G 0.721 A 0.279 G/A GIH rs12905 2 102326439 0.097 1 HapMap HapMap G 0.727 A 0.273 G/A JPT rs12905 2 102326439 0.182 1 HapMap HapMap G 0.57 A 0.43 G/A LWK rs12905 2 102326439 0.129 1 HapMap HapMap G 0.961 A 0.039 G/A MEX rs12905 2 102326439 0.085 1 HapMap HapMap G 0.796 A 0.204 G/A YRI rs12905 2 102326439 0.2 1 HapMap HapMap G 0.942 A 0.058 G/A CEU rs12987222 2 102180548 0.027 1 HapMap HapMap G 0.942 T 0.058 G/T GIH rs12987222 2 102180548 0.002 1 HapMap HapMap G 0.994 T 0.006 G/T LWK rs12987222 2 102180548 0.135 0.682 HapMap HapMap G 0.917 T 0.083 G/T MKK rs12987222 2 102180548 0.206 0.941 HapMap HapMap G 0.858 T 0.142 G/T ASW rs12987782 2 102304398 0.24 1 HapMap HapMap G 0.877 A 0.123 G/A CEU rs12987782 2 102304398 0.015 1 HapMap HapMap G 0.929 A 0.071 G/A GIH rs12987782 2 102304398 0.018 1 HapMap HapMap G 0.938 A 0.062 G/A LWK rs12987782 2 102304398 0.398 1 HapMap HapMap G 0.889 A 0.111 G/A MEX rs12987782 2 102304398 0.021 1 HapMap HapMap G 0.94 A 0.06 G/A MKK rs12987782 2 102304398 0.448 1 HapMap HapMap G 0.755 A 0.245 G/A YRI rs12987782 2 102304398 0.227 1 HapMap HapMap G 0.929 A 0.071 G/A CEU rs12987900 2 102215780 0.04 1 HapMap HapMap G 0.947 A 0.053 G/A GIH rs12987900 2 102215780 0.002 1 HapMap HapMap G 0.994 A 0.006 G/A LWK rs12987900 2 102215780 0.172 0.72 HapMap HapMap G 0.906 A 0.094 G/A MKK rs12987900 2 102215780 0.212 0.945 HapMap HapMap G 0.856 A 0.144 G/A CEU rs12992518 2 102204030 0.04 1 HapMap HapMap C 0.947 T 0.053 C/T GIH rs12992518 2 102204030 0.002 1 HapMap HapMap C 0.994 T 0.006 C/T LWK rs12992518 2 102204030 0.135 0.682 HapMap HapMap C 0.917 T 0.083 C/T MKK rs12992518 2 102204030 0.226 0.949 HapMap HapMap C 0.846 T 0.154 C/T CEU rs12995644 2 102246459 0.04 1 HapMap HapMap C 0.956 A 0.044 C/A GIH rs12995644 2 102246459 0.003 1 HapMap HapMap C 0.989 A 0.011 C/A LWK rs12995644 2 102246459 0.231 0.893 HapMap HapMap C 0.917 A 0.083 C/A MKK rs12995644 2 102246459 0.2 0.938 HapMap HapMap C 0.862 A 0.138 C/A YRI rs12995644 2 102246459 0.152 0.819 HapMap HapMap C 0.925 A 0.075 C/A ASW rs12998521 2 102340849 0.643 1 HapMap HapMap G 0.774 T 0.226 G/T CEU rs12998521 2 102340849 0.414 1 HapMap HapMap G 0.611 T 0.389 G/T CHB rs12998521 2 102340849 0.111 1 HapMap HapMap G 0.613 T 0.387 G/T CHD rs12998521 2 102340849 0.076 1 HapMap HapMap G 0.624 T 0.376 G/T GIH rs12998521 2 102340849 0.135 1 HapMap HapMap G 0.659 T 0.341 G/T JPT rs12998521 2 102340849 0.191 1 HapMap HapMap G 0.564 T 0.436 G/T LWK rs12998521 2 102340849 0.562 1 HapMap HapMap G 0.85 T 0.15 G/T MEX rs12998521 2 102340849 0.125 1 HapMap HapMap G 0.73 T 0.27 G/T MKK rs12998521 2 102340849 0.625 1 HapMap HapMap G 0.689 T 0.311 G/T YRI rs12998521 2 102340849 0.499 1 HapMap HapMap G 0.867 T 0.133 G/T CEU rs12999517 2 102325692 0.056 1 HapMap HapMap T 0.894 C 0.106 T/C GIH rs12999517 2 102325692 0.018 1 HapMap HapMap T 0.938 C 0.062 T/C MEX rs12999517 2 102325692 0.021 1 HapMap HapMap T 0.94 C 0.06 T/C CEU rs13002972 2 102218293 0.04 1 HapMap HapMap G 0.947 A 0.053 G/A GIH rs13002972 2 102218293 0.002 1 HapMap HapMap G 0.994 A 0.006 G/A LWK rs13002972 2 102218293 0.153 0.702 HapMap HapMap G 0.911 A 0.089 G/A MKK rs13002972 2 102218293 0.213 0.946 HapMap HapMap G 0.853 A 0.147 G/A GIH rs13014084 2 102221197 0.002 1 HapMap HapMap A 0.994 G 0.006 A/G MKK rs13014084 2 102221197 0.187 0.852 HapMap HapMap A 0.843 G 0.157 A/G ASW rs13015714 2 102338297 0.202 1 HapMap HapMap G 0.075 T 0.925 G/T CEU rs13015714 2 102338297 0.209 1 HapMap HapMap G 0.204 T 0.796 G/T CHB rs13015714 2 102338297 0.135 1 HapMap HapMap G 0.47 T 0.53 G/T CHD rs13015714 2 102338297 0.132 1 HapMap HapMap G 0.512 T 0.488 G/T GIH rs13015714 2 102338297 0.225 1 HapMap HapMap G 0.449 T 0.551 G/T JPT rs13015714 2 102338297 0.095 1 HapMap HapMap G 0.39 T 0.61 G/T LWK rs13015714 2 102338297 0.311 1 HapMap HapMap G 0.089 T 0.911 G/T MEX rs13015714 2 102338297 0.333 1 HapMap HapMap G 0.46 T 0.54 G/T MKK rs13015714 2 102338297 0.174 1 HapMap HapMap G 0.112 T 0.888 G/T YRI rs13015714 2 102338297 0.372 1 HapMap HapMap G 0.106 T 0.894 G/T CHB rs13018263 2 102458702 0.213 0.63 HapMap HapMap T 0.753 C 0.247 T/C CHD rs13018263 2 102458702 0.216 0.822 HapMap HapMap T 0.714 C 0.286 T/C JPT rs13018263 2 102458702 0.263 0.747 HapMap HapMap T 0.735 C 0.265 T/C ASW rs13018263 2 102458702 0.101 0.686 HapMap HapMap T 0.708 C 0.292 T/C ASW rs13019081 2 102317254 0.643 1 HapMap HapMap A 0.774 C 0.226 A/C CEU rs13019081 2 102317254 0.292 0.918 HapMap HapMap A 0.646 C 0.354 A/C CHB rs13019081 2 102317254 0.111 1 HapMap HapMap A 0.607 C 0.393 A/C CHD rs13019081 2 102317254 0.074 1 HapMap HapMap A 0.629 C 0.371 A/C GIH rs13019081 2 102317254 0.095 0.839 HapMap HapMap A 0.659 C 0.341 A/C JPT rs13019081 2 102317254 0.21 1 HapMap HapMap A 0.541 C 0.459 A/C LWK rs13019081 2 102317254 0.538 1 HapMap HapMap A 0.856 C 0.144 A/C MEX rs13019081 2 102317254 0.125 1 HapMap HapMap A 0.73 C 0.27 A/C MKK rs13019081 2 102317254 0.587 0.957 HapMap HapMap A 0.684 C 0.316 A/C YRI rs13019081 2 102317254 0.466 1 HapMap HapMap A 0.872 C 0.128 A/C CHD rs13019784 2 102489733 0.034 0.607 HapMap HapMap A 0.577 G 0.423 A/G CEU rs13019784 2 102489733 0.145 0.859 HapMap HapMap A 0.19 G 0.81 A/G ASW rs13019803 2 102142634 0.054 0.603 HapMap HapMap C 0.774 T 0.226 C/T CHD rs13019803 2 102142634 0.026 1 HapMap HapMap C 0.829 T 0.171 C/T GIH rs13019803 2 102142634 0.044 1 HapMap HapMap C 0.862 T 0.138 C/T MEX rs13019803 2 102142634 0.048 1 HapMap HapMap C 0.878 T 0.122 C/T ASW rs13383035 2 102421766 0.03 1 HapMap HapMap C 0.943 A 0.057 C/A LWK rs13383035 2 102421766 0.01 0.964 HapMap HapMap C 0.967 A 0.033 C/A MKK rs13383035 2 102421766 0.026 1 HapMap HapMap C 0.965 A 0.035 C/A YRI rs13383035 2 102421766 0.039 1 HapMap HapMap C 0.912 A 0.088 C/A ASW rs13386900 2 102247181 0.102 1 HapMap HapMap G 0.849 A 0.151 G/A CHB rs13386900 2 102247181 0.208 0.738 HapMap HapMap G 0.946 A 0.054 G/A CHD rs13386900 2 102247181 0.444 1 HapMap HapMap G 0.947 A 0.053 G/A JPT rs13386900 2 102247181 0.385 1 HapMap HapMap G 0.936 A 0.064 G/A LWK rs13386900 2 102247181 0.081 0.818 HapMap HapMap G 0.722 A 0.278 G/A MEX rs13386900 2 102247181 0.031 1 HapMap HapMap G 0.99 A 0.01 G/A MKK rs13386900 2 102247181 0.225 1 HapMap HapMap G 0.762 A 0.238 G/A YRI rs13386900 2 102247181 0.064 0.762 HapMap HapMap G 0.752 A 0.248 G/A CEU rs13413002 2 102216915 0.008 1 HapMap HapMap C 0.987 T 0.013 C/T LWK rs13413002 2 102216915 0.011 1 HapMap HapMap C 0.967 T 0.033 C/T MKK rs13413002 2 102216915 0.032 1 HapMap HapMap C 0.958 T 0.042 C/T ASW rs13416708 2 102265736 0.03 1 HapMap HapMap G 0.953 A 0.047 G/A CEU rs13416708 2 102265736 0.014 1 HapMap HapMap G 0.996 A 0.004 G/A LWK rs13416708 2 102265736 0.005 1 HapMap HapMap G 0.983 A 0.017 G/A MEX rs13416708 2 102265736 0.031 1 HapMap HapMap G 0.99 A 0.01 G/A MKK rs13416708 2 102265736 0.032 1 HapMap HapMap G 0.958 A 0.042 G/A YRI rs13416708 2 102265736 0.015 1 HapMap HapMap G 0.956 A 0.044 G/A ASW rs13431828 2 102321085 0.214 1 HapMap HapMap C 0.726 T 0.274 C/T CEU rs13431828 2 102321085 0.159 1 HapMap HapMap C 0.876 T 0.124 C/T CHB rs13431828 2 102321085 0.632 1 HapMap HapMap C 0.905 T 0.095 C/T CHD rs13431828 2 102321085 0.713 1 HapMap HapMap C 0.917 T 0.083 C/T GIH rs13431828 2 102321085 0.374 1 HapMap HapMap C 0.908 T 0.092 C/T JPT rs13431828 2 102321085 0.753 1 HapMap HapMap C 0.872 T 0.128 C/T LWK rs13431828 2 102321085 0.096 1 HapMap HapMap C 0.767 T 0.233 C/T MEX rs13431828 2 102321085 0.423 1 HapMap HapMap C 0.86 T 0.14 C/T MKK rs13431828 2 102321085 0.296 1 HapMap HapMap C 0.71 T 0.29 C/T YRI rs13431828 2 102321085 0.216 1 HapMap HapMap C 0.664 T 0.336 C/T ASW rs1362348 2 102351056 0.877 1 HapMap HapMap C 0.358 G 0.642 C/G CEU rs1362348 2 102351056 1 1 HapMap HapMap C 0.593 G 0.407 C/G CHB rs1362348 2 102351056 1 1 HapMap HapMap C 0.857 G 0.143 C/G CHD rs1362348 2 102351056 1 1 HapMap HapMap C 0.888 G 0.112 C/G GIH rs1362348 2 102351056 1 1 HapMap HapMap C 0.79 G 0.21 C/G JPT rs1362348 2 102351056 1 1 HapMap HapMap C 0.849 G 0.151 C/G LWK rs1362348 2 102351056 0.554 1 HapMap HapMap C 0.365 G 0.635 C/G MEX rs1362348 2 102351056 1 1 HapMap HapMap C 0.724 G 0.276 C/G MKK rs1362348 2 102351056 0.855 1 HapMap HapMap C 0.458 G 0.542 C/G YRI rs1362348 2 102351056 0.916 1 HapMap HapMap C 0.284 G 0.716 C/G CEU rs1403548 2 102476807 0.213 0.887 HapMap HapMap C 0.261 T 0.739 C/T CHB rs1403548 2 102476807 0.11 0.657 HapMap HapMap C 0.622 T 0.378 C/T CHD rs1403548 2 102476807 0.083 0.621 HapMap HapMap C 0.617 T 0.383 C/T GIH rs1403548 2 102476807 0.059 0.713 HapMap HapMap C 0.295 T 0.705 C/T YRI rs1403548 2 102476807 0.015 1 HapMap HapMap C 0.031 T 0.969 C/T ASW rs1403548 2 102476807 0.063 1 HapMap HapMap C 0.019 T 0.981 C/T ASW rs1403550 2 102502741 0.031 1 HapMap HapMap T 0.009 C 0.991 T/C CEU rs1403550 2 102502741 0.145 0.859 HapMap HapMap T 0.19 C 0.81 T/C CHB rs1403550 2 102502741 0.148 1 HapMap HapMap T 0.5 C 0.5 T/C CHD rs1403550 2 102502741 0.126 1 HapMap HapMap T 0.5 C 0.5 T/C JPT rs1403550 2 102502741 0.111 1 HapMap HapMap T 0.407 C 0.593 T/C YRI rs1403550 2 102502741 0.011 1 HapMap HapMap T 0.027 C 0.973 T/C CEU rs1403551 2 102502878 0.145 0.859 HapMap HapMap T 0.19 G 0.81 T/G CHB rs1403551 2 102502878 0.148 1 HapMap HapMap T 0.5 G 0.5 T/G CHD rs1403551 2 102502878 0.126 1 HapMap HapMap T 0.5 G 0.5 T/G JPT rs1403551 2 102502878 0.111 1 HapMap HapMap T 0.407 G 0.593 T/G ASW rs1403552 2 102455209 0.119 0.699 HapMap HapMap C 0.689 T 0.311 C/T CEU rs1403552 2 102455209 0.193 1 HapMap HapMap C 0.836 T 0.164 C/T CHB rs1403552 2 102455209 0.632 1 HapMap HapMap C 0.905 T 0.095 C/T CHD rs1403552 2 102455209 0.713 1 HapMap HapMap C 0.918 T 0.082 C/T MEX rs1403552 2 102455209 0.364 0.813 HapMap HapMap C 0.82 T 0.18 C/T LWK rs1403552 2 102455209 0.074 0.67 HapMap HapMap C 0.656 T 0.344 C/T GIH rs1403552 2 102455209 0.22 0.74 HapMap HapMap C 0.903 T 0.097 C/T JPT rs1403552 2 102455209 0.753 1 HapMap HapMap C 0.872 T 0.128 C/T CEU rs1420089 2 102304821 0.193 1 HapMap HapMap T 0.876 C 0.124 T/C GIH rs1420089 2 102304821 0.021 1 HapMap HapMap T 0.994 C 0.006 T/C LWK rs1420089 2 102304821 0.051 0.82 HapMap HapMap T 0.806 C 0.194 T/C MEX rs1420089 2 102304821 0.196 1 HapMap HapMap T 0.94 C 0.06 T/C MKK rs1420089 2 102304821 0.091 1 HapMap HapMap T 0.888 C 0.112 T/C YRI rs1420089 2 102304821 0.023 0.61 HapMap HapMap T 0.796 C 0.204 T/C ASW rs1420092 2 102240817 0.031 1 HapMap HapMap A 0.009 C 0.991 A/C CEU rs1420092 2 102240817 0.047 1 HapMap HapMap A 0.102 C 0.898 A/C CHB rs1420092 2 102240817 0.006 0.749 HapMap HapMap A 0.036 C 0.964 A/C GIH rs1420092 2 102240817 0.019 0.79 HapMap HapMap A 0.102 C 0.898 A/C JPT rs1420092 2 102240817 0.01 1 HapMap HapMap A 0.041 C 0.959 A/C MEX rs1420092 2 102240817 0.021 1 HapMap HapMap A 0.06 C 0.94 A/C MKK rs1420092 2 102240817 0.124 0.86 HapMap HapMap A 0.108 C 0.892 A/C YRI rs1420092 2 102240817 0.004 1 HapMap HapMap A 0.018 C 0.982 A/C ASW rs1420094 2 102382119 0.358 0.778 HapMap HapMap C 0.226 T 0.774 C/T CEU rs1420094 2 102382119 0.759 1 HapMap HapMap C 0.478 T 0.522 C/T CHB rs1420094 2 102382119 0.622 1 HapMap HapMap C 0.837 T 0.163 C/T CHD rs1420094 2 102382119 0.583 0.873 HapMap HapMap C 0.859 T 0.141 C/T GIH rs1420094 2 102382119 0.703 0.924 HapMap HapMap C 0.756 T 0.244 C/T JPT rs1420094 2 102382119 0.92 1 HapMap HapMap C 0.835 T 0.165 C/T MEX rs1420094 2 102382119 0.709 0.939 HapMap HapMap C 0.68 T 0.32 C/T MKK rs1420094 2 102382119 0.278 0.732 HapMap HapMap C 0.273 T 0.727 C/T ASW rs1420097 2 102375786 0.408 0.796 HapMap HapMap C 0.236 G 0.764 C/G CEU rs1420097 2 102375786 0.759 1 HapMap HapMap C 0.478 G 0.522 C/G CHB rs1420097 2 102375786 0.564 0.892 HapMap HapMap C 0.833 G 0.167 C/G CHD rs1420097 2 102375786 0.615 0.874 HapMap HapMap C 0.865 G 0.135 C/G GIH rs1420097 2 102375786 0.703 0.924 HapMap HapMap C 0.756 G 0.244 C/G JPT rs1420097 2 102375786 0.85 1 HapMap HapMap C 0.831 G 0.169 C/G MEX rs1420097 2 102375786 0.709 0.939 HapMap HapMap C 0.68 G 0.32 C/G MKK rs1420097 2 102375786 0.278 0.732 HapMap HapMap C 0.273 G 0.727 C/G ASW rs1420101 2 102324148 0.28 0.66 HapMap HapMap C 0.594 T 0.406 C/T CEU rs1420101 2 102324148 0.331 1 HapMap HapMap C 0.65 T 0.35 C/T CHB rs1420101 2 102324148 0.113 1 HapMap HapMap C 0.614 T 0.386 C/T CHD rs1420101 2 102324148 0.077 1 HapMap HapMap C 0.625 T 0.375 C/T GIH rs1420101 2 102324148 0.132 1 HapMap HapMap C 0.665 T 0.335 C/T JPT rs1420101 2 102324148 0.21 1 HapMap HapMap C 0.535 T 0.465 C/T MEX rs1420101 2 102324148 0.125 1 HapMap HapMap C 0.73 T 0.27 C/T CHD rs1420105 2 102401551 0.619 0.862 HapMap HapMap T 0.88 C 0.12 T/C GIH rs1420105 2 102401551 0.68 0.923 HapMap HapMap T 0.75 C 0.25 T/C CHB rs1420105 2 102401551 0.564 0.892 HapMap HapMap T 0.833 C 0.167 T/C ASW rs1420105 2 102401551 0.358 0.778 HapMap HapMap T 0.226 C 0.774 T/C CEU rs1420105 2 102401551 0.754 1 HapMap HapMap T 0.482 C 0.518 T/C JPT rs1420105 2 102401551 0.85 1 HapMap HapMap T 0.831 C 0.169 T/C MEX rs1420105 2 102401551 0.692 0.934 HapMap HapMap T 0.688 C 0.312 T/C MKK rs1420105 2 102401551 0.223 0.699 HapMap HapMap T 0.248 C 0.752 T/C CEU rs1420106 2 102401476 0.209 1 HapMap HapMap A 0.205 G 0.795 A/G CHB rs1420106 2 102401476 0.141 1 HapMap HapMap A 0.482 G 0.518 A/G CHD rs1420106 2 102401476 0.122 1 HapMap HapMap A 0.5 G 0.5 A/G GIH rs1420106 2 102401476 0.149 0.816 HapMap HapMap A 0.449 G 0.551 A/G JPT rs1420106 2 102401476 0.105 1 HapMap HapMap A 0.405 G 0.595 A/G LWK rs1420106 2 102401476 0.034 0.806 HapMap HapMap A 0.149 G 0.851 A/G MEX rs1420106 2 102401476 0.333 1 HapMap HapMap A 0.458 G 0.542 A/G MKK rs1420106 2 102401476 0.128 0.701 HapMap HapMap A 0.16 G 0.84 A/G CEU rs1523196 2 102530132 0.245 1 HapMap HapMap T 0.867 G 0.133 T/G CHB rs1523196 2 102530132 0.147 1 HapMap HapMap T 0.988 G 0.012 T/G JPT rs1523196 2 102530132 0.122 1 HapMap HapMap T 0.983 G 0.017 T/G LWK rs1523196 2 102530132 0.044 1 HapMap HapMap T 0.878 G 0.122 T/G MKK rs1523196 2 102530132 0.088 1 HapMap HapMap T 0.892 G 0.108 T/G ASW rs1523198 2 102464906 0.063 1 HapMap HapMap C 0.019 T 0.981 C/T CEU rs1523198 2 102464906 0.273 1 HapMap HapMap C 0.265 T 0.735 C/T CHB rs1523198 2 102464906 0.132 0.677 HapMap HapMap C 0.643 T 0.357 C/T CHD rs1523198 2 102464906 0.133 0.768 HapMap HapMap C 0.641 T 0.359 C/T GIH rs1523198 2 102464906 0.059 0.713 HapMap HapMap C 0.295 T 0.705 C/T JPT rs1523198 2 102464906 0.102 0.604 HapMap HapMap C 0.605 T 0.395 C/T LWK rs1523198 2 102464906 0.129 1 HapMap HapMap C 0.039 T 0.961 C/T MKK rs1523198 2 102464906 0.063 0.761 HapMap HapMap C 0.073 T 0.927 C/T YRI rs1523198 2 102464906 0.071 1 HapMap HapMap C 0.027 T 0.973 C/T CHD rs1558625 2 102228596 0.021 0.972 HapMap HapMap A 0.153 G 0.847 A/G JPT rs1558625 2 102228596 0.058 1 HapMap HapMap A 0.233 G 0.767 A/G YRI rs1558625 2 102228596 0.033 0.705 HapMap HapMap A 0.181 G 0.819 A/G ASW rs1558646 2 102179710 0.103 0.712 HapMap HapMap G 0.915 A 0.085 G/A JPT rs1558653 2 102507155 0.456 0.751 HapMap HapMap C 0.847 T 0.153 C/T CHD rs1558653 2 102507155 0.431 0.677 HapMap HapMap C 0.894 T 0.106 C/T CHB rs1558653 2 102507155 0.385 0.68 HapMap HapMap C 0.861 T 0.139 C/T CEU rs1558653 2 102507155 0.047 1 HapMap HapMap C 0.929 T 0.071 C/T LWK rs17026782 2 102183509 0.036 1 HapMap HapMap A 0.989 G 0.011 A/G MKK rs17026782 2 102183509 0.04 1 HapMap HapMap A 0.972 G 0.028 A/G YRI rs17026782 2 102183509 0.023 1 HapMap HapMap A 0.996 G 0.004 A/G ASW rs17026974 2 102318792 0.319 1 HapMap HapMap G 0.896 A 0.104 G/A CEU rs17026974 2 102318792 0.301 1 HapMap HapMap G 0.721 A 0.279 G/A CHB rs17026974 2 102318792 0.083 1 HapMap HapMap G 0.649 A 0.351 G/A CHD rs17026974 2 102318792 0.065 1 HapMap HapMap G 0.659 A 0.341 G/A GIH rs17026974 2 102318792 0.097 1 HapMap HapMap G 0.727 A 0.273 G/A JPT rs17026974 2 102318792 0.182 1 HapMap HapMap G 0.57 A 0.43 G/A LWK rs17026974 2 102318792 0.072 1 HapMap HapMap G 0.978 A 0.022 G/A MEX rs17026974 2 102318792 0.091 1 HapMap HapMap G 0.79 A 0.21 G/A MKK rs17026974 2 102318792 0.071 1 HapMap HapMap G 0.951 A 0.049 G/A YRI rs17026974 2 102318792 0.2 1 HapMap HapMap G 0.942 A 0.058 G/A ASW rs17027006 2 102331764 0.361 1 HapMap HapMap G 0.887 C 0.113 G/C CEU rs17027006 2 102331764 0.287 1 HapMap HapMap G 0.726 C 0.274 G/C CHB rs17027006 2 102331764 0.091 1 HapMap HapMap G 0.643 C 0.357 G/C CHD rs17027006 2 102331764 0.065 1 HapMap HapMap G 0.659 C 0.341 G/C GIH rs17027006 2 102331764 0.097 1 HapMap HapMap G 0.727 C 0.273 G/C JPT rs17027006 2 102331764 0.182 1 HapMap HapMap G 0.576 C 0.424 G/C LWK rs17027006 2 102331764 0.129 1 HapMap HapMap G 0.961 C 0.039 G/C MEX rs17027006 2 102331764 0.091 1 HapMap HapMap G 0.79 C 0.21 G/C MKK rs17027006 2 102331764 0.093 1 HapMap HapMap G 0.937 C 0.063 G/C YRI rs17027006 2 102331764 0.2 1 HapMap HapMap G 0.942 C 0.058 G/C ASW rs17027056 2 102373483 0.031 1 HapMap HapMap C 0.991 T 0.009 C/T MEX rs17027056 2 102373483 0.008 1 HapMap HapMap C 0.96 T 0.04 C/T CEU rs17027056 2 102373483 0.039 1 HapMap HapMap C 0.942 T 0.058 C/T CHB rs17027056 2 102373483 0.032 1 HapMap HapMap C 0.863 T 0.137 C/T CHD rs17027056 2 102373483 0.02 1 HapMap HapMap C 0.865 T 0.135 C/T GIH rs17027056 2 102373483 0.011 1 HapMap HapMap C 0.96 T 0.04 C/T JPT rs17027056 2 102373483 0.058 1 HapMap HapMap C 0.773 T 0.227 C/T ASW rs17027087 2 102382350 0.448 1 HapMap HapMap C 0.83 T 0.17 C/T CEU rs17027087 2 102382350 0.301 1 HapMap HapMap C 0.721 T 0.279 C/T LWK rs17027087 2 102382350 0.248 1 HapMap HapMap C 0.928 T 0.072 C/T MEX rs17027087 2 102382350 0.059 0.78 HapMap HapMap C 0.78 T 0.22 C/T MKK rs17027087 2 102382350 0.102 0.809 HapMap HapMap C 0.899 T 0.101 C/T CHB rs17027087 2 102382350 0.033 0.62 HapMap HapMap C 0.643 T 0.357 C/T CHD rs17027087 2 102382350 0.043 0.766 HapMap HapMap C 0.637 T 0.363 C/T GIH rs17027087 2 102382350 0.112 1 HapMap HapMap C 0.699 T 0.301 C/T JPT rs17027087 2 102382350 0.173 1 HapMap HapMap C 0.581 T 0.419 C/T CEU rs17027166 2 102421852 0.301 1 HapMap HapMap G 0.721 A 0.279 G/A CHB rs17027166 2 102421852 0.033 0.62 HapMap HapMap G 0.643 A 0.357 G/A CHD rs17027166 2 102421852 0.043 0.764 HapMap HapMap G 0.639 A 0.361 G/A GIH rs17027166 2 102421852 0.112 1 HapMap HapMap G 0.698 A 0.302 G/A JPT rs17027166 2 102421852 0.173 1 HapMap HapMap G 0.581 A 0.419 G/A MEX rs17027166 2 102421852 0.071 0.804 HapMap HapMap G 0.76 A 0.24 G/A CHD rs17027173 2 102423475 0.093 0.697 HapMap HapMap G 0.976 A 0.024 G/A GIH rs17027173 2 102423475 0.469 0.936 HapMap HapMap G 0.875 A 0.125 G/A JPT rs17027173 2 102423475 0.185 1 HapMap HapMap G 0.983 A 0.017 G/A LWK rs17027173 2 102423475 0.063 1 HapMap HapMap G 0.831 A 0.169 G/A MEX rs17027173 2 102423475 0.344 1 HapMap HapMap G 0.89 A 0.11 G/A MKK rs17027173 2 102423475 0.14 0.881 HapMap HapMap G 0.806 A 0.194 G/A YRI rs17027173 2 102423475 0.042 0.617 HapMap HapMap G 0.792 A 0.208 G/A CEU rs17027173 2 102423475 0.592 1 HapMap HapMap G 0.728 A 0.272 G/A CHB rs17027173 2 102423475 0.223 1 HapMap HapMap G 0.976 A 0.024 G/A CHB rs17027255 2 102456559 0.033 0.62 HapMap HapMap C 0.643 T 0.357 C/T CHD rs17027255 2 102456559 0.039 0.752 HapMap HapMap C 0.647 T 0.353 C/T GIH rs17027255 2 102456559 0.115 1 HapMap HapMap C 0.693 T 0.307 C/T JPT rs17027255 2 102456559 0.173 1 HapMap HapMap C 0.581 T 0.419 C/T MEX rs17027255 2 102456559 0.071 0.804 HapMap HapMap C 0.76 T 0.24 C/T CEU rs17027255 2 102456559 0.301 1 HapMap HapMap C 0.712 T 0.288 C/T MKK rs17027275 2 102461819 0.005 1 HapMap HapMap G 0.993 A 0.007 G/A ASW rs17027275 2 102461819 0.038 1 HapMap HapMap G 0.934 A 0.066 G/A CHB rs17027275 2 102461819 0.002 1 HapMap HapMap G 0.994 A 0.006 G/A GIH rs17027275 2 102461819 0 1 HapMap HapMap G 0.994 A 0.006 G/A LWK rs17027275 2 102461819 0.007 1 HapMap HapMap G 0.978 A 0.022 G/A YRI rs17027275 2 102461819 0.015 1 HapMap HapMap G 0.951 A 0.049 G/A CEU rs17027293 2 102465272 0.047 1 HapMap HapMap A 0.934 G 0.066 A/G MEX rs17027293 2 102465272 0.017 1 HapMap HapMap A 0.96 G 0.04 A/G CHD rs17027293 2 102465272 0.002 0.614 HapMap HapMap A 0.965 G 0.035 A/G GIH rs17027293 2 102465272 0.01 1 HapMap HapMap A 0.966 G 0.034 A/G JPT rs17027293 2 102465272 0.005 1 HapMap HapMap A 0.977 G 0.023 A/G GIH rs17027295 2 102465303 0.01 1 HapMap HapMap G 0.966 A 0.034 G/A JPT rs17027295 2 102465303 0.005 1 HapMap HapMap G 0.977 A 0.023 G/A MEX rs17027295 2 102465303 0.017 1 HapMap HapMap G 0.96 A 0.04 G/A CEU rs17027295 2 102465303 0.047 1 HapMap HapMap G 0.929 A 0.071 G/A CHD rs17027295 2 102465303 0.002 0.614 HapMap HapMap G 0.965 A 0.035 G/A LWK rs17027341 2 102502991 0.053 1 HapMap HapMap T 0.856 C 0.144 T/C MKK rs17027341 2 102502991 0.096 0.905 HapMap HapMap T 0.86 C 0.14 T/C JPT rs17027341 2 102502991 0.122 1 HapMap HapMap T 0.983 C 0.017 T/C CEU rs17027341 2 102502991 0.245 1 HapMap HapMap T 0.863 C 0.137 T/C CHB rs17027341 2 102502991 0.147 1 HapMap HapMap T 0.988 C 0.012 T/C MKK rs17027347 2 102504736 0.014 0.639 HapMap HapMap G 0.976 A 0.024 G/A YRI rs17027347 2 102504736 0.015 1 HapMap HapMap G 0.951 A 0.049 G/A ASW rs17027347 2 102504736 0.038 1 HapMap HapMap G 0.934 A 0.066 G/A CEU rs17027413 2 102520099 0.245 1 HapMap HapMap C 0.865 T 0.135 C/T CHB rs17027413 2 102520099 0.147 1 HapMap HapMap C 0.988 T 0.012 C/T LWK rs17027413 2 102520099 0.046 1 HapMap HapMap C 0.872 T 0.128 C/T MKK rs17027413 2 102520099 0.045 0.617 HapMap HapMap C 0.862 T 0.138 C/T CEU rs17027442 2 102531380 0.245 1 HapMap HapMap C 0.867 T 0.133 C/T CHB rs17027442 2 102531380 0.147 1 HapMap HapMap C 0.988 T 0.012 C/T JPT rs17027442 2 102531380 0.122 1 HapMap HapMap C 0.983 T 0.017 C/T MKK rs17027442 2 102531380 0.089 1 HapMap HapMap C 0.89 T 0.11 C/T MEX rs17637748 2 102208147 0.226 0.629 HapMap HapMap A 0.39 G 0.61 A/G LWK rs17651485 2 102368082 0.19 0.799 HapMap HapMap C 0.916 T 0.084 C/T MKK rs17651485 2 102368082 0.15 1 HapMap HapMap C 0.902 T 0.098 C/T CEU rs17651485 2 102368082 0.056 1 HapMap HapMap C 0.919 T 0.081 C/T CHD rs17651485 2 102368082 0.004 1 HapMap HapMap C 0.971 T 0.029 C/T GIH rs17651485 2 102368082 0.008 1 HapMap HapMap C 0.972 T 0.028 C/T JPT rs17651485 2 102368082 0.005 1 HapMap HapMap C 0.977 T 0.023 C/T YRI rs17651485 2 102368082 0.036 0.609 HapMap HapMap C 0.973 T 0.027 C/T CHD rs17772203 2 102482292 0.002 0.637 HapMap HapMap C 0.964 G 0.036 C/G LWK rs17772203 2 102482292 0.021 0.827 HapMap HapMap C 0.911 G 0.089 C/G YRI rs17772203 2 102482292 0.053 1 HapMap HapMap C 0.907 G 0.093 C/G JPT rs17772203 2 102482292 0.005 1 HapMap HapMap C 0.977 G 0.023 C/G CEU rs17772203 2 102482292 0.048 1 HapMap HapMap C 0.933 G 0.067 C/G JPT rs1829849 2 102516130 0.05 0.62 HapMap HapMap A 0.429 C 0.571 A/C CHB rs1829849 2 102516130 0.17 1 HapMap HapMap A 0.531 C 0.469 A/C CHD rs1829849 2 102516130 0.086 0.776 HapMap HapMap A 0.554 C 0.446 A/C ASW rs1921622 2 102332499 0.569 0.838 HapMap HapMap G 0.726 A 0.274 G/A JPT rs1921622 2 102332499 0.097 0.634 HapMap HapMap G 0.517 A 0.483 G/A LWK rs1921622 2 102332499 0.376 0.728 HapMap HapMap G 0.818 A 0.182 G/A MKK rs1921622 2 102332499 0.46 0.763 HapMap HapMap G 0.636 A 0.364 G/A CEU rs1946131 2 102328361 0.056 1 HapMap HapMap C 0.889 T 0.111 C/T CHD rs1946131 2 102328361 0.002 0.614 HapMap HapMap C 0.965 T 0.035 C/T GIH rs1946131 2 102328361 0.018 1 HapMap HapMap C 0.938 T 0.062 C/T MEX rs1946131 2 102328361 0.021 1 HapMap HapMap C 0.94 T 0.06 C/T MKK rs1946131 2 102328361 0.267 0.682 HapMap HapMap C 0.706 T 0.294 C/T ASW rs1997502 2 102210681 0.014 0.992 HapMap HapMap A 0.019 G 0.981 A/G LWK rs1997502 2 102210681 0.018 1 HapMap HapMap A 0.006 G 0.994 A/G YRI rs1997502 2 102210681 0.071 1 HapMap HapMap A 0.018 G 0.982 A/G CEU rs1997503 2 102175667 0.076 0.771 HapMap HapMap C 0.903 T 0.097 C/T CHB rs1997503 2 102175667 0.012 1 HapMap HapMap C 0.929 T 0.071 C/T GIH rs1997503 2 102175667 0.021 1 HapMap HapMap C 0.994 T 0.006 C/T JPT rs1997503 2 102175667 0.005 1 HapMap HapMap C 0.977 T 0.023 C/T LWK rs1997503 2 102175667 0.03 0.652 HapMap HapMap C 0.817 T 0.183 C/T MKK rs1997503 2 102175667 0.057 1 HapMap HapMap C 0.926 T 0.074 C/T YRI rs1997503 2 102175667 0.053 1 HapMap HapMap C 0.853 T 0.147 C/T CHD rs2008157 2 102515614 0.098 0.814 HapMap HapMap A 0.541 G 0.459 A/G CHB rs2008157 2 102515614 0.17 1 HapMap HapMap A 0.53 G 0.47 A/G JPT rs2008157 2 102515614 0.05 0.62 HapMap HapMap A 0.436 G 0.564 A/G CHB rs2008159 2 102515594 0.17 1 HapMap HapMap A 0.53 G 0.47 A/G JPT rs2008159 2 102515594 0.05 0.62 HapMap HapMap A 0.436 G 0.564 A/G CHD rs2008159 2 102515594 0.098 0.814 HapMap HapMap A 0.541 G 0.459 A/G JPT rs2015478 2 102507879 0.05 0.62 HapMap HapMap A 0.436 G 0.564 A/G CHB rs2015478 2 102507879 0.17 1 HapMap HapMap A 0.53 G 0.47 A/G CHD rs2015478 2 102507879 0.098 0.814 HapMap HapMap A 0.541 G 0.459 A/G GIH rs2041739 2 102360765 0.703 0.924 HapMap HapMap C 0.756 T 0.244 C/T JPT rs2041739 2 102360765 0.85 1 HapMap HapMap C 0.831 T 0.169 C/T MEX rs2041739 2 102360765 0.709 0.939 HapMap HapMap C 0.68 T 0.32 C/T MKK rs2041739 2 102360765 0.278 0.732 HapMap HapMap C 0.273 T 0.727 C/T ASW rs2041739 2 102360765 0.408 0.796 HapMap HapMap C 0.236 T 0.764 C/T CEU rs2041739 2 102360765 0.759 1 HapMap HapMap C 0.482 T 0.518 C/T CHB rs2041739 2 102360765 0.564 0.892 HapMap HapMap C 0.831 T 0.169 C/T CHD rs2041739 2 102360765 0.615 0.874 HapMap HapMap C 0.865 T 0.135 C/T ASW rs2041756 2 102416342 0.022 1 HapMap HapMap A 0.038 G 0.962 A/G CEU rs2041756 2 102416342 0.209 1 HapMap HapMap A 0.204 G 0.796 A/G CHB rs2041756 2 102416342 0.141 1 HapMap HapMap A 0.476 G 0.524 A/G CHD rs2041756 2 102416342 0.129 1 HapMap HapMap A 0.506 G 0.494 A/G GIH rs2041756 2 102416342 0.141 0.803 HapMap HapMap A 0.443 G 0.557 A/G JPT rs2041756 2 102416342 0.105 1 HapMap HapMap A 0.413 G 0.587 A/G LWK rs2041756 2 102416342 0.053 1 HapMap HapMap A 0.144 G 0.856 A/G MEX rs2041756 2 102416342 0.304 1 HapMap HapMap A 0.44 G 0.56 A/G MKK rs2041756 2 102416342 0.118 0.643 HapMap HapMap A 0.171 G 0.829 A/G YRI rs2041756 2 102416342 0.048 0.626 HapMap HapMap A 0.049 G 0.951 A/G CEU rs2058659 2 102420988 0.759 1 HapMap HapMap G 0.482 A 0.518 G/A CHB rs2058659 2 102420988 0.564 0.892 HapMap HapMap G 0.837 A 0.163 G/A CHD rs2058659 2 102420988 0.615 0.874 HapMap HapMap G 0.865 A 0.135 G/A GIH rs2058659 2 102420988 0.716 0.961 HapMap HapMap G 0.744 A 0.256 G/A JPT rs2058659 2 102420988 0.85 1 HapMap HapMap G 0.831 A 0.169 G/A CEU rs2058660 2 102420881 0.209 1 HapMap HapMap G 0.192 A 0.808 G/A CHB rs2058660 2 102420881 0.135 1 HapMap HapMap G 0.47 A 0.53 G/A CHD rs2058660 2 102420881 0.126 1 HapMap HapMap G 0.5 A 0.5 G/A GIH rs2058660 2 102420881 0.141 0.803 HapMap HapMap G 0.443 A 0.557 G/A JPT rs2058660 2 102420881 0.105 1 HapMap HapMap G 0.413 A 0.587 G/A LWK rs2058660 2 102420881 0.048 1 HapMap HapMap G 0.133 A 0.867 G/A ASW rs2058660 2 102420881 0.022 1 HapMap HapMap G 0.038 A 0.962 G/A MEX rs2058660 2 102420881 0.298 1 HapMap HapMap G 0.418 A 0.582 G/A MKK rs2058660 2 102420881 0.118 0.643 HapMap HapMap G 0.171 A 0.829 G/A ASW rs2075186 2 102423683 0.119 0.699 HapMap HapMap G 0.689 T 0.311 G/T CEU rs2075186 2 102423683 0.193 1 HapMap HapMap G 0.836 T 0.164 G/T CHB rs2075186 2 102423683 0.632 1 HapMap HapMap G 0.905 T 0.095 G/T CHD rs2075186 2 102423683 0.713 1 HapMap HapMap G 0.918 T 0.082 G/T GIH rs2075186 2 102423683 0.22 0.74 HapMap HapMap G 0.903 T 0.097 G/T JPT rs2075186 2 102423683 0.753 1 HapMap HapMap G 0.872 T 0.128 G/T LWK rs2075186 2 102423683 0.068 0.649 HapMap HapMap G 0.661 T 0.339 G/T MEX rs2075186 2 102423683 0.364 0.813 HapMap HapMap G 0.82 T 0.18 G/T GIH rs2075187 2 102486743 0.059 0.713 HapMap HapMap G 0.295 A 0.705 G/A YRI rs2075187 2 102486743 0.019 1 HapMap HapMap G 0.04 A 0.96 G/A ASW rs2075187 2 102486743 0.063 1 HapMap HapMap G 0.038 A 0.962 G/A CEU rs2075187 2 102486743 0.232 0.898 HapMap HapMap G 0.27 A 0.73 G/A CHB rs2075187 2 102486743 0.132 0.677 HapMap HapMap G 0.643 A 0.357 G/A CHD rs2075187 2 102486743 0.126 0.759 HapMap HapMap G 0.631 A 0.369 G/A CEU rs2075188 2 102486664 0.232 0.898 HapMap HapMap G 0.27 A 0.73 G/A CHD rs2075188 2 102486664 0.021 0.639 HapMap HapMap G 0.706 A 0.294 G/A JPT rs2075188 2 102486664 0.09 1 HapMap HapMap G 0.733 A 0.267 G/A CHB rs2075193 2 102484459 0.132 0.677 HapMap HapMap G 0.643 A 0.357 G/A CHD rs2075193 2 102484459 0.131 0.765 HapMap HapMap G 0.637 A 0.363 G/A GIH rs2075193 2 102484459 0.059 0.713 HapMap HapMap G 0.295 A 0.705 G/A MKK rs2075193 2 102484459 0.063 0.761 HapMap HapMap G 0.073 A 0.927 G/A YRI rs2075193 2 102484459 0.023 1 HapMap HapMap G 0.018 A 0.982 G/A CEU rs2075193 2 102484459 0.232 0.898 HapMap HapMap G 0.27 A 0.73 G/A JPT rs2075193 2 102484459 0.102 0.604 HapMap HapMap G 0.605 A 0.395 G/A LWK rs2075193 2 102484459 0.129 1 HapMap HapMap G 0.039 A 0.961 G/A ASW rs2075193 2 102484459 0.063 1 HapMap HapMap G 0.019 A 0.981 G/A GIH rs2080315 2 102470720 0.01 1 HapMap HapMap G 0.966 T 0.034 G/T MEX rs2080315 2 102470720 0.017 1 HapMap HapMap G 0.96 T 0.04 G/T CHB rs2080315 2 102470720 0.016 0.859 HapMap HapMap G 0.893 T 0.107 G/T CHD rs2080315 2 102470720 0.007 0.81 HapMap HapMap G 0.924 T 0.076 G/T CEU rs2080315 2 102470720 0.047 1 HapMap HapMap G 0.934 T 0.066 G/T CEU rs2110661 2 102229653 0.345 0.774 HapMap HapMap G 0.588 A 0.412 G/A CHB rs2110661 2 102229653 0.211 0.836 HapMap HapMap G 0.315 A 0.685 G/A CHD rs2110661 2 102229653 0.281 0.911 HapMap HapMap G 0.274 A 0.726 G/A GIH rs2110661 2 102229653 0.427 0.949 HapMap HapMap G 0.362 A 0.638 G/A JPT rs2110661 2 102229653 0.144 0.665 HapMap HapMap G 0.36 A 0.64 G/A MEX rs2110661 2 102229653 0.091 0.628 HapMap HapMap G 0.622 A 0.378 G/A ASW rs2110726 2 102160714 0.067 0.635 HapMap HapMap G 0.934 A 0.066 G/A LWK rs2110726 2 102160714 0.076 0.77 HapMap HapMap G 0.961 A 0.039 G/A YRI rs2110726 2 102160714 0.071 1 HapMap HapMap G 0.982 A 0.018 G/A CEU rs2141781 2 102449338 0.337 0.656 HapMap HapMap G 0.655 A 0.345 G/A GIH rs2141781 2 102449338 0.319 0.685 HapMap HapMap G 0.847 A 0.153 G/A MEX rs2141781 2 102449338 0.209 0.671 HapMap HapMap G 0.86 A 0.14 G/A MKK rs2160203 2 102327256 0.442 0.974 HapMap HapMap A 0.608 G 0.392 A/G YRI rs2160203 2 102327256 0.307 0.917 HapMap HapMap A 0.482 G 0.518 A/G ASW rs2160203 2 102327256 0.401 1 HapMap HapMap A 0.519 G 0.481 A/G CEU rs2160203 2 102327256 0.406 1 HapMap HapMap A 0.757 G 0.243 A/G CHB rs2160203 2 102327256 0.632 1 HapMap HapMap A 0.905 G 0.095 A/G CHD rs2160203 2 102327256 0.713 1 HapMap HapMap A 0.918 G 0.082 A/G GIH rs2160203 2 102327256 0.401 1 HapMap HapMap A 0.903 G 0.097 A/G JPT rs2160203 2 102327256 0.737 1 HapMap HapMap A 0.875 G 0.125 A/G LWK rs2160203 2 102327256 0.219 1 HapMap HapMap A 0.589 G 0.411 A/G MEX rs2160203 2 102327256 0.687 1 HapMap HapMap A 0.8 G 0.2 A/G CEU rs2192752 2 102135805 0.112 0.732 HapMap HapMap G 0.23 T 0.77 G/T JPT rs2192752 2 102135805 0.03 1 HapMap HapMap G 0.105 T 0.895 G/T MKK rs2192752 2 102135805 0.106 0.793 HapMap HapMap G 0.108 T 0.892 G/T ASW rs2241116 2 102369697 0.202 1 HapMap HapMap C 0.915 A 0.085 C/A CEU rs2241116 2 102369697 0.233 1 HapMap HapMap C 0.779 A 0.221 C/A CHD rs2241116 2 102369697 0.036 1 HapMap HapMap C 0.776 A 0.224 C/A GIH rs2241116 2 102369697 0.089 1 HapMap HapMap C 0.744 A 0.256 C/A JPT rs2241116 2 102369697 0.062 1 HapMap HapMap C 0.808 A 0.192 C/A MEX rs2241116 2 102369697 0.053 0.766 HapMap HapMap C 0.8 A 0.2 C/A MKK rs2241116 2 102369697 0.02 0.704 HapMap HapMap C 0.972 A 0.028 C/A YRI rs2241116 2 102369697 0.121 0.688 HapMap HapMap C 0.938 A 0.062 C/A LWK rs2241116 2 102369697 0.037 1 HapMap HapMap C 0.989 A 0.011 C/A ASW rs2241130 2 102202138 0.085 0.794 HapMap HapMap T 0.783 C 0.217 T/C LWK rs2241130 2 102202138 0.075 1 HapMap HapMap T 0.809 C 0.191 T/C MEX rs2241130 2 102202138 0.118 0.845 HapMap HapMap T 0.684 C 0.316 T/C MKK rs2241130 2 102202138 0.13 0.766 HapMap HapMap T 0.766 C 0.234 T/C JPT rs2272128 2 102406361 0.105 1 HapMap HapMap G 0.413 A 0.587 G/A ASW rs2272128 2 102406361 0.022 1 HapMap HapMap G 0.057 A 0.943 G/A CEU rs2272128 2 102406361 0.209 1 HapMap HapMap G 0.204 A 0.796 G/A CHB rs2272128 2 102406361 0.141 1 HapMap HapMap G 0.476 A 0.524 G/A CHD rs2272128 2 102406361 0.129 1 HapMap HapMap G 0.506 A 0.494 G/A GIH rs2272128 2 102406361 0.149 0.816 HapMap HapMap G 0.449 A 0.551 G/A MEX rs2272128 2 102406361 0.333 1 HapMap HapMap G 0.46 A 0.54 G/A MKK rs2272128 2 102406361 0.113 0.652 HapMap HapMap G 0.171 A 0.829 G/A CEU rs2287033 2 102377669 0.754 1 HapMap HapMap T 0.487 C 0.513 T/C CHB rs2287033 2 102377669 0.564 0.892 HapMap HapMap T 0.833 C 0.167 T/C CHD rs2287033 2 102377669 0.615 0.874 HapMap HapMap T 0.865 C 0.135 T/C GIH rs2287033 2 102377669 0.703 0.924 HapMap HapMap T 0.756 C 0.244 T/C JPT rs2287033 2 102377669 0.85 1 HapMap HapMap T 0.831 C 0.169 T/C MEX rs2287033 2 102377669 0.709 0.939 HapMap HapMap T 0.68 C 0.32 T/C MKK rs2287033 2 102377669 0.274 0.729 HapMap HapMap T 0.271 C 0.729 T/C ASW rs2287034 2 102377020 0.279 1 HapMap HapMap C 0.896 A 0.104 C/A CEU rs2287034 2 102377020 0.301 1 HapMap HapMap C 0.721 A 0.279 C/A YRI rs2287034 2 102377020 0.171 0.74 HapMap HapMap C 0.916 A 0.084 C/A CHB rs2287034 2 102377020 0.038 0.642 HapMap HapMap C 0.637 A 0.363 C/A CHD rs2287034 2 102377020 0.067 1 HapMap HapMap C 0.643 A 0.357 C/A GIH rs2287034 2 102377020 0.112 1 HapMap HapMap C 0.699 A 0.301 C/A JPT rs2287034 2 102377020 0.173 1 HapMap HapMap C 0.581 A 0.419 C/A LWK rs2287034 2 102377020 0.148 1 HapMap HapMap C 0.956 A 0.044 C/A MEX rs2287034 2 102377020 0.059 0.78 HapMap HapMap C 0.78 A 0.22 C/A MKK rs2287034 2 102377020 0.111 0.895 HapMap HapMap C 0.909 A 0.091 C/A ASW rs2287035 2 102376962 0.279 1 HapMap HapMap G 0.896 A 0.104 G/A GIH rs2287035 2 102376962 0.112 1 HapMap HapMap G 0.699 A 0.301 G/A JPT rs2287035 2 102376962 0.173 1 HapMap HapMap G 0.581 A 0.419 G/A CEU rs2287035 2 102376962 0.301 1 HapMap HapMap G 0.721 A 0.279 G/A CHB rs2287035 2 102376962 0.038 0.642 HapMap HapMap G 0.637 A 0.363 G/A CHD rs2287035 2 102376962 0.041 0.76 HapMap HapMap G 0.641 A 0.359 G/A LWK rs2287035 2 102376962 0.129 1 HapMap HapMap G 0.961 A 0.039 G/A MEX rs2287035 2 102376962 0.059 0.78 HapMap HapMap G 0.776 A 0.224 G/A MKK rs2287035 2 102376962 0.071 0.847 HapMap HapMap G 0.934 A 0.066 G/A YRI rs2287035 2 102376962 0.143 0.711 HapMap HapMap G 0.92 A 0.08 G/A ASW rs2287037 2 102345460 0.87 1 HapMap HapMap C 0.712 T 0.288 C/T CEU rs2287037 2 102345460 0.414 1 HapMap HapMap C 0.611 T 0.389 C/T CHB rs2287037 2 102345460 0.117 1 HapMap HapMap C 0.607 T 0.393 C/T CHD rs2287037 2 102345460 0.076 1 HapMap HapMap C 0.624 T 0.376 C/T GIH rs2287037 2 102345460 0.135 1 HapMap HapMap C 0.659 T 0.341 C/T JPT rs2287037 2 102345460 0.191 1 HapMap HapMap C 0.564 T 0.436 C/T LWK rs2287037 2 102345460 0.85 0.966 HapMap HapMap C 0.778 T 0.222 C/T MKK rs2287037 2 102345460 0.677 1 HapMap HapMap C 0.671 T 0.329 C/T YRI rs2287037 2 102345460 0.78 0.948 HapMap HapMap C 0.782 T 0.218 C/T MEX rs2287041 2 102219298 0.118 0.848 HapMap HapMap G 0.69 T 0.31 G/T CEU rs2287047 2 102140486 0.133 0.624 HapMap HapMap G 0.77 A 0.23 G/A CHB rs2287047 2 102140486 0.111 1 HapMap HapMap G 0.59 A 0.41 G/A CHB rs2287049 2 102137170 0.111 1 HapMap HapMap A 0.583 G 0.417 A/G ASW rs2293223 2 102401900 0.119 0.699 HapMap HapMap C 0.689 T 0.311 C/T CEU rs2293223 2 102401900 0.193 1 HapMap HapMap C 0.836 T 0.164 C/T CHB rs2293223 2 102401900 0.632 1 HapMap HapMap C 0.905 T 0.095 C/T CHD rs2293223 2 102401900 0.655 0.923 HapMap HapMap C 0.912 T 0.088 C/T JPT rs2293223 2 102401900 0.753 1 HapMap HapMap C 0.872 T 0.128 C/T LWK rs2293223 2 102401900 0.068 0.649 HapMap HapMap C 0.661 T 0.339 C/T MEX rs2293223 2 102401900 0.361 0.812 HapMap HapMap C 0.816 T 0.184 C/T ASW rs2293225 2 102402321 0.202 1 HapMap HapMap C 0.915 T 0.085 C/T LWK rs2293225 2 102402321 0.018 1 HapMap HapMap C 0.994 T 0.006 C/T MKK rs2293225 2 102402321 0.02 0.704 HapMap HapMap C 0.972 T 0.028 C/T YRI rs2293225 2 102402321 0.121 0.688 HapMap HapMap C 0.938 T 0.062 C/T CEU rs2293225 2 102402321 0.233 1 HapMap HapMap C 0.779 T 0.221 C/T CHD rs2293225 2 102402321 0.036 1 HapMap HapMap C 0.776 T 0.224 C/T GIH rs2293225 2 102402321 0.089 1 HapMap HapMap C 0.744 T 0.256 C/T JPT rs2293225 2 102402321 0.062 1 HapMap HapMap C 0.808 T 0.192 C/T MEX rs2293225 2 102402321 0.053 0.766 HapMap HapMap C 0.8 T 0.2 C/T GIH rs2302612 2 102218140 0.015 0.606 HapMap HapMap T 0.869 C 0.131 T/C MEX rs2302612 2 102218140 0.085 0.607 HapMap HapMap T 0.61 C 0.39 T/C ASW rs2302620 2 102208899 0.085 0.794 HapMap HapMap T 0.783 C 0.217 T/C LWK rs2302620 2 102208899 0.055 1 HapMap HapMap T 0.85 C 0.15 T/C MEX rs2302620 2 102208899 0.118 0.848 HapMap HapMap T 0.69 C 0.31 T/C MKK rs2302620 2 102208899 0.148 0.87 HapMap HapMap T 0.787 C 0.213 T/C ASW rs2310300 2 102415506 0.358 0.778 HapMap HapMap A 0.208 G 0.792 A/G GIH rs2310300 2 102415506 0.674 0.921 HapMap HapMap A 0.753 G 0.247 A/G JPT rs2310300 2 102415506 0.85 1 HapMap HapMap A 0.831 G 0.169 A/G MEX rs2310300 2 102415506 0.709 0.939 HapMap HapMap A 0.68 G 0.32 A/G MKK rs2310300 2 102415506 0.223 0.699 HapMap HapMap A 0.248 G 0.752 A/G CEU rs2310300 2 102415506 0.759 1 HapMap HapMap A 0.482 G 0.518 A/G CHB rs2310300 2 102415506 0.564 0.892 HapMap HapMap A 0.833 G 0.167 A/G CHD rs2310300 2 102415506 0.615 0.874 HapMap HapMap A 0.865 G 0.135 A/G CHB rs2310303 2 102470311 0.142 0.667 HapMap HapMap A 0.655 G 0.345 A/G CHD rs2310303 2 102470311 0.123 0.683 HapMap HapMap A 0.676 G 0.324 A/G CEU rs28362304 2 102157518 0.017 1 HapMap HapMap C 0.991 T 0.009 C/T GIH rs28362304 2 102157518 0.03 1 HapMap HapMap C 0.901 T 0.099 C/T MKK rs28362304 2 102157518 0.015 1 HapMap HapMap C 0.99 T 0.01 C/T YRI rs28362304 2 102157518 0.077 1 HapMap HapMap C 0.981 T 0.019 C/T YRI rs28634469 2 102382598 0.038 0.729 HapMap HapMap C 0.819 T 0.181 C/T MKK rs28634469 2 102382598 0.041 1 HapMap HapMap C 0.947 T 0.053 C/T ASW rs28634469 2 102382598 0.055 1 HapMap HapMap C 0.906 T 0.094 C/T LWK rs28634469 2 102382598 0.063 1 HapMap HapMap C 0.833 T 0.167 C/T GIH rs3171845 2 102157813 0.021 1 HapMap HapMap G 0.994 A 0.006 G/A LWK rs3171845 2 102157813 0.099 1 HapMap HapMap G 0.761 A 0.239 G/A MEX rs3171845 2 102157813 0.128 1 HapMap HapMap G 0.96 A 0.04 G/A MKK rs3171845 2 102157813 0.061 0.665 HapMap HapMap G 0.839 A 0.161 G/A CHB rs3213733 2 102364316 0.632 1 HapMap HapMap C 0.905 A 0.095 C/A CHD rs3213733 2 102364316 0.713 1 HapMap HapMap C 0.918 A 0.082 C/A CEU rs3213733 2 102364316 0.193 1 HapMap HapMap C 0.841 A 0.159 C/A ASW rs3213733 2 102364316 0.086 0.636 HapMap HapMap C 0.708 A 0.292 C/A GIH rs3213733 2 102364316 0.25 0.816 HapMap HapMap C 0.908 A 0.092 C/A JPT rs3213733 2 102364316 0.753 1 HapMap HapMap C 0.872 A 0.128 C/A LWK rs3213733 2 102364316 0.074 0.666 HapMap HapMap C 0.657 A 0.343 C/A MEX rs3213733 2 102364316 0.364 0.813 HapMap HapMap C 0.82 A 0.18 C/A ASW rs3213734 2 102175115 0.085 0.794 HapMap HapMap G 0.783 A 0.217 G/A LWK rs3213734 2 102175115 0.052 1 HapMap HapMap G 0.858 A 0.142 G/A MEX rs3213734 2 102175115 0.132 0.851 HapMap HapMap G 0.67 A 0.33 G/A MKK rs3213734 2 102175115 0.131 0.808 HapMap HapMap G 0.783 A 0.217 G/A CHB rs3213736 2 102151574 0.056 1 HapMap HapMap G 0.78 C 0.22 G/C CEU rs3732123 2 102384509 0.301 1 HapMap HapMap C 0.721 G 0.279 C/G CHD rs3732123 2 102384509 0.043 0.766 HapMap HapMap C 0.637 G 0.363 C/G MKK rs3732123 2 102384509 0.087 0.87 HapMap HapMap C 0.923 G 0.077 C/G ASW rs3732123 2 102384509 0.448 1 HapMap HapMap C 0.83 G 0.17 C/G CHB rs3732123 2 102384509 0.033 0.62 HapMap HapMap C 0.643 G 0.357 C/G GIH rs3732123 2 102384509 0.112 1 HapMap HapMap C 0.699 G 0.301 C/G JPT rs3732123 2 102384509 0.173 1 HapMap HapMap C 0.581 G 0.419 C/G LWK rs3732123 2 102384509 0.228 1 HapMap HapMap C 0.933 G 0.067 C/G MEX rs3732123 2 102384509 0.059 0.78 HapMap HapMap C 0.78 G 0.22 C/G ASW rs3732124 2 102384484 0.358 0.778 HapMap HapMap C 0.226 T 0.774 C/T CEU rs3732124 2 102384484 0.759 1 HapMap HapMap C 0.482 T 0.518 C/T CHB rs3732124 2 102384484 0.564 0.892 HapMap HapMap C 0.825 T 0.175 C/T CHD rs3732124 2 102384484 0.614 0.874 HapMap HapMap C 0.863 T 0.137 C/T GIH rs3732124 2 102384484 0.703 0.924 HapMap HapMap C 0.756 T 0.244 C/T JPT rs3732124 2 102384484 0.85 1 HapMap HapMap C 0.831 T 0.169 C/T MEX rs3732124 2 102384484 0.709 0.939 HapMap HapMap C 0.68 T 0.32 C/T MKK rs3732124 2 102384484 0.231 0.705 HapMap HapMap C 0.252 T 0.748 C/T ASW rs3732126 2 102380394 0.279 1 HapMap HapMap A 0.896 C 0.104 A/C CHB rs3732126 2 102380394 0.038 0.642 HapMap HapMap A 0.637 C 0.363 A/C CHD rs3732126 2 102380394 0.041 0.76 HapMap HapMap A 0.641 C 0.359 A/C GIH rs3732126 2 102380394 0.112 1 HapMap HapMap A 0.699 C 0.301 A/C MKK rs3732126 2 102380394 0.052 0.821 HapMap HapMap A 0.948 C 0.052 A/C YRI rs3732126 2 102380394 0.143 0.711 HapMap HapMap A 0.92 C 0.08 A/C MEX rs3732126 2 102380394 0.059 0.78 HapMap HapMap A 0.78 C 0.22 A/C CEU rs3732126 2 102380394 0.301 1 HapMap HapMap A 0.721 C 0.279 A/C JPT rs3732126 2 102380394 0.173 1 HapMap HapMap A 0.581 C 0.419 A/C LWK rs3732126 2 102380394 0.072 1 HapMap HapMap A 0.978 C 0.022 A/C CEU rs3732131 2 102161035 0.023 1 HapMap HapMap A 0.951 G 0.049 A/G LWK rs3732131 2 102161035 0.06 1 HapMap HapMap A 0.839 G 0.161 A/G MEX rs3732131 2 102161035 0.123 0.844 HapMap HapMap A 0.68 G 0.32 A/G MKK rs3732131 2 102161035 0.101 0.767 HapMap HapMap A 0.808 G 0.192 A/G CHD rs3732134 2 102160649 0.026 1 HapMap HapMap C 0.833 G 0.167 C/G GIH rs3732134 2 102160649 0.031 1 HapMap HapMap C 0.898 G 0.102 C/G JPT rs3732134 2 102160649 0.051 1 HapMap HapMap C 0.797 G 0.203 C/G MEX rs3732134 2 102160649 0.032 1 HapMap HapMap C 0.918 G 0.082 C/G MKK rs3732134 2 102160649 0.005 1 HapMap HapMap C 0.993 G 0.007 C/G CHD rs3755266 2 102409144 0.615 0.874 HapMap HapMap G 0.865 A 0.135 G/A GIH rs3755266 2 102409144 0.68 0.923 HapMap HapMap G 0.75 A 0.25 G/A MEX rs3755266 2 102409144 0.709 0.939 HapMap HapMap G 0.68 A 0.32 G/A MKK rs3755266 2 102409144 0.223 0.696 HapMap HapMap G 0.246 A 0.754 G/A ASW rs3755266 2 102409144 0.358 0.778 HapMap HapMap G 0.208 A 0.792 G/A CEU rs3755266 2 102409144 0.759 1 HapMap HapMap G 0.482 A 0.518 G/A CHB rs3755266 2 102409144 0.564 0.892 HapMap HapMap G 0.833 A 0.167 G/A JPT rs3755266 2 102409144 0.85 1 HapMap HapMap G 0.831 A 0.169 G/A CHB rs3755267 2 102405019 0.141 1 HapMap HapMap T 0.476 G 0.524 T/G CHD rs3755267 2 102405019 0.131 1 HapMap HapMap T 0.518 G 0.482 T/G GIH rs3755267 2 102405019 0.149 0.816 HapMap HapMap T 0.449 G 0.551 T/G JPT rs3755267 2 102405019 0.105 1 HapMap HapMap T 0.411 G 0.589 T/G CEU rs3755267 2 102405019 0.209 1 HapMap HapMap T 0.218 G 0.782 T/G MEX rs3755267 2 102405019 0.342 1 HapMap HapMap T 0.458 G 0.542 T/G ASW rs3755267 2 102405019 0.022 1 HapMap HapMap T 0.057 G 0.943 T/G CHB rs3755276 2 102344891 1 1 HapMap HapMap C 0.857 T 0.143 C/T ASW rs3755276 2 102344891 0.877 1 HapMap HapMap C 0.349 T 0.651 C/T CEU rs3755276 2 102344891 1 1 HapMap HapMap C 0.593 T 0.407 C/T CHD rs3755276 2 102344891 1 1 HapMap HapMap C 0.887 T 0.113 C/T GIH rs3755276 2 102344891 1 1 HapMap HapMap C 0.79 T 0.21 C/T JPT rs3755276 2 102344891 1 1 HapMap HapMap C 0.849 T 0.151 C/T LWK rs3755276 2 102344891 0.555 1 HapMap HapMap C 0.361 T 0.639 C/T MKK rs3755276 2 102344891 0.855 1 HapMap HapMap C 0.458 T 0.542 C/T YRI rs3755276 2 102344891 0.916 1 HapMap HapMap C 0.265 T 0.735 C/T ASW rs3755287 2 102206288 0.085 0.794 HapMap HapMap G 0.783 A 0.217 G/A LWK rs3755287 2 102206288 0.075 1 HapMap HapMap G 0.812 A 0.188 G/A MEX rs3755287 2 102206288 0.118 0.845 HapMap HapMap G 0.684 A 0.316 G/A MKK rs3755287 2 102206288 0.135 0.773 HapMap HapMap G 0.762 A 0.238 G/A CHD rs3771150 2 102427283 0.041 0.76 HapMap HapMap G 0.641 A 0.359 G/A GIH rs3771150 2 102427283 0.115 1 HapMap HapMap G 0.693 A 0.307 G/A JPT rs3771150 2 102427283 0.173 1 HapMap HapMap G 0.581 A 0.419 G/A LWK rs3771150 2 102427283 0.11 1 HapMap HapMap G 0.966 A 0.034 G/A MEX rs3771150 2 102427283 0.071 0.804 HapMap HapMap G 0.76 A 0.24 G/A ASW rs3771150 2 102427283 0.279 1 HapMap HapMap G 0.896 A 0.104 G/A CHB rs3771150 2 102427283 0.033 0.62 HapMap HapMap G 0.643 A 0.357 G/A MKK rs3771150 2 102427283 0.039 0.769 HapMap HapMap G 0.955 A 0.045 G/A CEU rs3771150 2 102427283 0.301 1 HapMap HapMap G 0.721 A 0.279 G/A YRI rs3771150 2 102427283 0.143 0.711 HapMap HapMap G 0.92 A 0.08 G/A GIH rs3771157 2 102379864 0.013 1 HapMap HapMap C 0.955 A 0.045 C/A LWK rs3771157 2 102379864 0.018 1 HapMap HapMap C 0.994 A 0.006 C/A MEX rs3771157 2 102379864 0.04 1 HapMap HapMap C 0.9 A 0.1 C/A MKK rs3771157 2 102379864 0.008 0.896 HapMap HapMap C 0.986 A 0.014 C/A ASW rs3771157 2 102379864 0.066 1 HapMap HapMap C 0.972 A 0.028 C/A CEU rs3771157 2 102379864 0.031 1 HapMap HapMap C 0.965 A 0.035 C/A CHD rs3771157 2 102379864 0.031 1 HapMap HapMap C 0.8 A 0.2 C/A JPT rs3771157 2 102379864 0.04 1 HapMap HapMap C 0.86 A 0.14 C/A ASW rs3771158 2 102376326 0.119 0.699 HapMap HapMap A 0.689 G 0.311 A/G CEU rs3771158 2 102376326 0.193 1 HapMap HapMap A 0.841 G 0.159 A/G CHB rs3771158 2 102376326 0.632 1 HapMap HapMap A 0.905 G 0.095 A/G LWK rs3771158 2 102376326 0.068 0.649 HapMap HapMap A 0.661 G 0.339 A/G MEX rs3771158 2 102376326 0.343 0.801 HapMap HapMap A 0.827 G 0.173 A/G CHD rs3771158 2 102376326 0.713 1 HapMap HapMap A 0.917 G 0.083 A/G GIH rs3771158 2 102376326 0.234 0.805 HapMap HapMap A 0.914 G 0.086 A/G JPT rs3771158 2 102376326 0.753 1 HapMap HapMap A 0.872 G 0.128 A/G CHD rs3771161 2 102370393 0.713 1 HapMap HapMap C 0.918 A 0.082 C/A GIH rs3771161 2 102370393 0.25 0.816 HapMap HapMap C 0.909 A 0.091 C/A JPT rs3771161 2 102370393 0.753 1 HapMap HapMap C 0.866 A 0.134 C/A ASW rs3771161 2 102370393 0.107 0.67 HapMap HapMap C 0.679 A 0.321 C/A CEU rs3771161 2 102370393 0.198 1 HapMap HapMap C 0.839 A 0.161 C/A CHB rs3771161 2 102370393 0.632 1 HapMap HapMap C 0.904 A 0.096 C/A LWK rs3771161 2 102370393 0.067 0.644 HapMap HapMap C 0.663 A 0.337 C/A MEX rs3771161 2 102370393 0.364 0.813 HapMap HapMap C 0.816 A 0.184 C/A ASW rs3771166 2 102352654 0.877 1 HapMap HapMap G 0.349 A 0.651 G/A CEU rs3771166 2 102352654 1 1 HapMap HapMap G 0.593 A 0.407 G/A CHB rs3771166 2 102352654 1 1 HapMap HapMap G 0.857 A 0.143 G/A CHD rs3771166 2 102352654 1 1 HapMap HapMap G 0.888 A 0.112 G/A GIH rs3771166 2 102352654 1 1 HapMap HapMap G 0.79 A 0.21 G/A JPT rs3771166 2 102352654 1 1 HapMap HapMap G 0.849 A 0.151 G/A LWK rs3771166 2 102352654 0.55 1 HapMap HapMap G 0.36 A 0.64 G/A MEX rs3771166 2 102352654 1 1 HapMap HapMap G 0.73 A 0.27 G/A MKK rs3771166 2 102352654 0.855 1 HapMap HapMap G 0.458 A 0.542 G/A YRI rs3771166 2 102352654 0.916 1 HapMap HapMap G 0.265 A 0.735 G/A LWK rs3771175 2 102326642 0.093 1 HapMap HapMap T 0.772 A 0.228 T/A MEX rs3771175 2 102326642 0.423 1 HapMap HapMap T 0.86 A 0.14 T/A MKK rs3771175 2 102326642 0.296 1 HapMap HapMap T 0.71 A 0.29 T/A YRI rs3771175 2 102326642 0.216 1 HapMap HapMap T 0.664 A 0.336 T/A ASW rs3771175 2 102326642 0.214 1 HapMap HapMap T 0.726 A 0.274 T/A CEU rs3771175 2 102326642 0.159 1 HapMap HapMap T 0.876 A 0.124 T/A CHB rs3771175 2 102326642 0.462 1 HapMap HapMap T 0.917 A 0.083 T/A CHD rs3771175 2 102326642 0.658 1 HapMap HapMap T 0.924 A 0.076 T/A GIH rs3771175 2 102326642 0.375 1 HapMap HapMap T 0.909 A 0.091 T/A JPT rs3771175 2 102326642 0.753 1 HapMap HapMap T 0.866 A 0.134 T/A ASW rs3771179 2 102320324 0.24 1 HapMap HapMap T 0.877 G 0.123 T/G CEU rs3771179 2 102320324 0.015 1 HapMap HapMap T 0.929 G 0.071 T/G CHD rs3771179 2 102320324 0.002 0.614 HapMap HapMap T 0.965 G 0.035 T/G GIH rs3771179 2 102320324 0.018 1 HapMap HapMap T 0.938 G 0.062 T/G LWK rs3771179 2 102320324 0.398 1 HapMap HapMap T 0.889 G 0.111 T/G MEX rs3771179 2 102320324 0.021 1 HapMap HapMap T 0.94 G 0.06 T/G MKK rs3771179 2 102320324 0.393 1 HapMap HapMap T 0.782 G 0.218 T/G YRI rs3771179 2 102320324 0.227 1 HapMap HapMap T 0.933 G 0.067 T/G ASW rs3771180 2 102320049 0.214 1 HapMap HapMap G 0.726 T 0.274 G/T CEU rs3771180 2 102320049 0.176 1 HapMap HapMap G 0.872 T 0.128 G/T CHB rs3771180 2 102320049 0.538 0.864 HapMap HapMap G 0.899 T 0.101 G/T CHD rs3771180 2 102320049 0.655 0.923 HapMap HapMap G 0.912 T 0.088 G/T GIH rs3771180 2 102320049 0.401 1 HapMap HapMap G 0.903 T 0.097 G/T JPT rs3771180 2 102320049 0.753 1 HapMap HapMap G 0.867 T 0.133 G/T LWK rs3771180 2 102320049 0.093 1 HapMap HapMap G 0.772 T 0.228 G/T MEX rs3771180 2 102320049 0.369 0.892 HapMap HapMap G 0.84 T 0.16 G/T MKK rs3771180 2 102320049 0.296 1 HapMap HapMap G 0.71 T 0.29 G/T YRI rs3771180 2 102320049 0.216 1 HapMap HapMap G 0.664 T 0.336 G/T LWK rs3771184 2 102209384 0.076 1 HapMap HapMap G 0.806 A 0.194 G/A MKK rs3771184 2 102209384 0.132 0.769 HapMap HapMap G 0.766 A 0.234 G/A ASW rs3771188 2 102206780 0.085 0.794 HapMap HapMap T 0.783 C 0.217 T/C LWK rs3771188 2 102206780 0.073 1 HapMap HapMap T 0.811 C 0.189 T/C MEX rs3771188 2 102206780 0.118 0.848 HapMap HapMap T 0.69 C 0.31 T/C MKK rs3771188 2 102206780 0.132 0.772 HapMap HapMap T 0.766 C 0.234 T/C CHB rs3771200 2 102155206 0.047 0.603 HapMap HapMap G 0.542 A 0.458 G/A CHD rs3917225 2 102135734 0.045 0.861 HapMap HapMap A 0.676 G 0.324 A/G YRI rs3917225 2 102135734 0.047 1 HapMap HapMap A 0.969 G 0.031 A/G ASW rs3917232 2 102137838 0.014 1 HapMap HapMap C 0.981 T 0.019 C/T LWK rs3917232 2 102137838 0.013 1 HapMap HapMap C 0.961 T 0.039 C/T MKK rs3917232 2 102137838 0.005 1 HapMap HapMap C 0.993 T 0.007 C/T YRI rs3917232 2 102137838 0.023 1 HapMap HapMap C 0.973 T 0.027 C/T ASW rs3917234 2 102138227 0.031 1 HapMap HapMap G 0.981 A 0.019 G/A YRI rs3917235 2 102138283 0.004 1 HapMap HapMap A 0.996 G 0.004 A/G LWK rs3917249 2 102141882 0.058 1 HapMap HapMap G 0.844 A 0.156 G/A MEX rs3917249 2 102141882 0 1 HapMap HapMap G 0.99 A 0.01 G/A GIH rs3917254 2 102142950 0.031 0.618 HapMap HapMap G 0.773 A 0.227 G/A ASW rs3917285 2 102147598 0.007 1 HapMap HapMap T 0.991 A 0.009 T/A CEU rs3917285 2 102147598 0.112 1 HapMap HapMap T 0.92 A 0.08 T/A GIH rs3917285 2 102147598 0.046 1 HapMap HapMap T 0.989 A 0.011 T/A LWK rs3917285 2 102147598 0.002 1 HapMap HapMap T 0.994 A 0.006 T/A MEX rs3917285 2 102147598 0.267 1 HapMap HapMap T 0.908 A 0.092 T/A CEU rs3917286 2 102148061 0.008 1 HapMap HapMap G 0.991 A 0.009 G/A GIH rs3917286 2 102148061 0.029 1 HapMap HapMap G 0.902 A 0.098 G/A LWK rs3917286 2 102148061 0.018 1 HapMap HapMap G 0.994 A 0.006 G/A MEX rs3917286 2 102148061 0.004 1 HapMap HapMap G 0.99 A 0.01 G/A MKK rs3917286 2 102148061 0.015 1 HapMap HapMap G 0.989 A 0.011 G/A YRI rs3917286 2 102148061 0.047 1 HapMap HapMap G 0.987 A 0.013 G/A CHB rs3917288 2 102148288 0.073 1 HapMap HapMap T 0.97 G 0.03 T/G CHD rs3917289 2 102148343 0.001 1 HapMap HapMap G 0.994 T 0.006 G/T GIH rs3917289 2 102148343 0.022 1 HapMap HapMap G 0.994 T 0.006 G/T JPT rs3917289 2 102148343 0.003 1 HapMap HapMap G 0.994 T 0.006 G/T LWK rs3917289 2 102148343 0.098 1 HapMap HapMap G 0.756 T 0.244 G/T MEX rs3917289 2 102148343 0.081 0.706 HapMap HapMap G 0.95 T 0.05 G/T MKK rs3917289 2 102148343 0.062 0.655 HapMap HapMap G 0.83 T 0.17 G/T ASW rs3917292 2 102149484 0.031 1 HapMap HapMap G 0.991 A 0.009 G/A GIH rs3917292 2 102149484 0.008 1 HapMap HapMap G 0.971 A 0.029 G/A MEX rs3917292 2 102149484 0.013 1 HapMap HapMap G 0.969 A 0.031 G/A MKK rs3917292 2 102149484 0.05 1 HapMap HapMap G 0.965 A 0.035 G/A CEU rs3917296 2 102151265 0.123 0.8 HapMap HapMap A 0.898 G 0.102 A/G CHB rs3917296 2 102151265 0.015 0.609 HapMap HapMap A 0.833 G 0.167 A/G CHD rs3917296 2 102151265 0.021 1 HapMap HapMap A 0.857 G 0.143 A/G GIH rs3917296 2 102151265 0.025 1 HapMap HapMap A 0.915 G 0.085 A/G JPT rs3917296 2 102151265 0.04 1 HapMap HapMap A 0.865 G 0.135 A/G CEU rs3917301 2 102153396 0.008 1 HapMap HapMap C 0.991 T 0.009 C/T GIH rs3917301 2 102153396 0.029 1 HapMap HapMap C 0.903 T 0.097 C/T MEX rs3917301 2 102153396 0.004 1 HapMap HapMap C 0.99 T 0.01 C/T MKK rs3917301 2 102153396 0.02 1 HapMap HapMap C 0.986 T 0.014 C/T YRI rs3917301 2 102153396 0.046 1 HapMap HapMap C 0.982 T 0.018 C/T ASW rs3917304 2 102154557 0.119 0.699 HapMap HapMap G 0.651 T 0.349 G/T LWK rs3917304 2 102154557 0.102 1 HapMap HapMap G 0.756 T 0.244 G/T MKK rs3917304 2 102154557 0.158 0.741 HapMap HapMap G 0.715 T 0.285 G/T ASW rs3917318 2 102159192 0.119 0.699 HapMap HapMap A 0.651 G 0.349 A/G LWK rs3917318 2 102159192 0.093 1 HapMap HapMap A 0.772 G 0.228 A/G MKK rs3917318 2 102159192 0.146 0.728 HapMap HapMap A 0.724 G 0.276 A/G ASW rs3917323 2 102159873 0.014 1 HapMap HapMap G 0.953 A 0.047 G/A CHB rs3917323 2 102159873 0.008 1 HapMap HapMap G 0.964 A 0.036 G/A MKK rs3917323 2 102159873 0.015 1 HapMap HapMap G 0.979 A 0.021 G/A CEU rs3917325 2 102160339 0.04 1 HapMap HapMap T 0.947 G 0.053 T/G GIH rs3917325 2 102160339 0.002 1 HapMap HapMap T 0.994 G 0.006 T/G MKK rs3917325 2 102160339 0.227 0.904 HapMap HapMap T 0.833 G 0.167 T/G CEU rs3917328 2 102160973 0.04 1 HapMap HapMap C 0.947 T 0.053 C/T GIH rs3917328 2 102160973 0.002 1 HapMap HapMap C 0.994 T 0.006 C/T MKK rs3917328 2 102160973 0.209 0.899 HapMap HapMap C 0.843 T 0.157 C/T CEU rs3917329 2 102162295 0.045 0.684 HapMap HapMap G 0.929 T 0.071 G/T GIH rs3917329 2 102162295 0.021 1 HapMap HapMap G 0.994 T 0.006 G/T LWK rs3917329 2 102162295 0.076 1 HapMap HapMap G 0.806 T 0.194 G/T MEX rs3917329 2 102162295 0.128 1 HapMap HapMap G 0.96 T 0.04 G/T MKK rs3917329 2 102162295 0.033 0.763 HapMap HapMap G 0.927 T 0.073 G/T YRI rs3917329 2 102162295 0.016 0.645 HapMap HapMap G 0.934 T 0.066 G/T CHB rs3917332 2 102162956 0.01 1 HapMap HapMap A 0.043 T 0.957 A/T GIH rs3917332 2 102162956 0.045 1 HapMap HapMap A 0.142 T 0.858 A/T ASW rs3917335 2 102137725 0.007 1 HapMap HapMap C 0.991 T 0.009 C/T GIH rs3917335 2 102137725 0.021 1 HapMap HapMap C 0.994 T 0.006 C/T LWK rs41319148 2 102488718 0.012 0.698 HapMap HapMap C 0.928 G 0.072 C/G MKK rs41319148 2 102488718 0.018 1 HapMap HapMap C 0.976 G 0.024 C/G MEX rs41319148 2 102488718 0.008 1 HapMap HapMap C 0.98 G 0.02 C/G GIH rs41348650 2 102470631 0.01 1 HapMap HapMap G 0.966 A 0.034 G/A JPT rs41348650 2 102470631 0.005 1 HapMap HapMap G 0.977 A 0.023 G/A CHD rs41348650 2 102470631 0.002 0.614 HapMap HapMap G 0.965 A 0.035 G/A MEX rs41348650 2 102470631 0.021 1 HapMap HapMap G 0.95 A 0.05 G/A CEU rs41348650 2 102470631 0.056 1 HapMap HapMap G 0.925 A 0.075 G/A ASW rs41484147 2 102490927 0.038 1 HapMap HapMap C 0.915 T 0.085 C/T LWK rs41484147 2 102490927 0.004 0.919 HapMap HapMap C 0.983 T 0.017 C/T MKK rs41484147 2 102490927 0.014 0.639 HapMap HapMap C 0.976 T 0.024 C/T YRI rs41484147 2 102490927 0.015 1 HapMap HapMap C 0.951 T 0.049 C/T CEU rs4851003 2 102275709 0.483 0.937 HapMap HapMap T 0.726 C 0.274 T/C CHB rs4851003 2 102275709 0.073 1 HapMap HapMap T 0.994 C 0.006 T/C CHD rs4851003 2 102275709 0.047 1 HapMap HapMap T 0.994 C 0.006 T/C GIH rs4851003 2 102275709 0.405 0.87 HapMap HapMap T 0.875 C 0.125 T/C MEX rs4851003 2 102275709 0.28 0.661 HapMap HapMap T 0.82 C 0.18 T/C CEU rs4851004 2 102375969 0.755 1 HapMap HapMap C 0.478 T 0.522 C/T CHB rs4851004 2 102375969 0.562 0.891 HapMap HapMap C 0.831 T 0.169 C/T ASW rs4851004 2 102375969 0.408 0.796 HapMap HapMap C 0.236 T 0.764 C/T CHD rs4851004 2 102375969 0.614 0.874 HapMap HapMap C 0.863 T 0.137 C/T GIH rs4851004 2 102375969 0.703 0.924 HapMap HapMap C 0.756 T 0.244 C/T JPT rs4851004 2 102375969 0.85 1 HapMap HapMap C 0.831 T 0.169 C/T MEX rs4851004 2 102375969 0.709 0.939 HapMap HapMap C 0.68 T 0.32 C/T MKK rs4851004 2 102375969 0.278 0.732 HapMap HapMap C 0.273 T 0.727 C/T ASW rs4851005 2 102377984 0.219 0.829 HapMap HapMap C 0.858 T 0.142 C/T CHB rs4851005 2 102377984 0.038 0.642 HapMap HapMap C 0.637 T 0.363 C/T CHD rs4851005 2 102377984 0.041 0.76 HapMap HapMap C 0.641 T 0.359 C/T GIH rs4851005 2 102377984 0.078 0.803 HapMap HapMap C 0.682 T 0.318 C/T JPT rs4851005 2 102377984 0.173 1 HapMap HapMap C 0.582 T 0.418 C/T LWK rs4851005 2 102377984 0.04 0.667 HapMap HapMap C 0.972 T 0.028 C/T MKK rs4851005 2 102377984 0.047 0.709 HapMap HapMap C 0.937 T 0.063 C/T CEU rs4851010 2 102422559 0.337 0.656 HapMap HapMap A 0.646 T 0.354 A/T GIH rs4851010 2 102422559 0.319 0.685 HapMap HapMap A 0.847 T 0.153 A/T MEX rs4851010 2 102422559 0.209 0.671 HapMap HapMap A 0.86 T 0.14 A/T ASW rs4851011 2 102456110 0.279 1 HapMap HapMap C 0.896 T 0.104 C/T CEU rs4851011 2 102456110 0.301 1 HapMap HapMap C 0.712 T 0.288 C/T CHB rs4851011 2 102456110 0.033 0.62 HapMap HapMap C 0.643 T 0.357 C/T CHD rs4851011 2 102456110 0.041 0.76 HapMap HapMap C 0.641 T 0.359 C/T LWK rs4851011 2 102456110 0.054 1 HapMap HapMap C 0.983 T 0.017 C/T MKK rs4851011 2 102456110 0.035 1 HapMap HapMap C 0.976 T 0.024 C/T GIH rs4851011 2 102456110 0.115 1 HapMap HapMap C 0.693 T 0.307 C/T JPT rs4851011 2 102456110 0.173 1 HapMap HapMap C 0.581 T 0.419 C/T MEX rs4851011 2 102456110 0.071 0.804 HapMap HapMap C 0.76 T 0.24 C/T YRI rs4851011 2 102456110 0.113 0.603 HapMap HapMap C 0.916 T 0.084 C/T CEU rs4851012 2 102482347 0.237 0.898 HapMap HapMap C 0.272 T 0.728 C/T CHD rs4851012 2 102482347 0.021 0.633 HapMap HapMap C 0.708 T 0.292 C/T JPT rs4851012 2 102482347 0.09 1 HapMap HapMap C 0.733 T 0.267 C/T CEU rs4851014 2 102482708 0.232 0.898 HapMap HapMap C 0.27 T 0.73 C/T CHD rs4851014 2 102482708 0.021 0.633 HapMap HapMap C 0.708 T 0.292 C/T JPT rs4851014 2 102482708 0.09 1 HapMap HapMap C 0.733 T 0.267 C/T JPT rs4851016 2 102486832 0.09 1 HapMap HapMap C 0.733 T 0.267 C/T CEU rs4851016 2 102486832 0.232 0.898 HapMap HapMap C 0.27 T 0.73 C/T CHD rs4851016 2 102486832 0.023 0.649 HapMap HapMap C 0.702 T 0.298 C/T CHD rs4851017 2 102487201 0.023 0.655 HapMap HapMap C 0.7 A 0.3 C/A JPT rs4851017 2 102487201 0.09 1 HapMap HapMap C 0.733 A 0.267 C/A CEU rs4851017 2 102487201 0.232 0.898 HapMap HapMap C 0.268 A 0.732 C/A CEU rs4851561 2 102218269 0.112 1 HapMap HapMap G 0.925 A 0.075 G/A GIH rs4851561 2 102218269 0.021 1 HapMap HapMap G 0.994 A 0.006 G/A LWK rs4851561 2 102218269 0.007 1 HapMap HapMap G 0.978 A 0.022 G/A MEX rs4851561 2 102218269 0.095 1 HapMap HapMap G 0.97 A 0.03 G/A MKK rs4851561 2 102218269 0.008 0.896 HapMap HapMap G 0.986 A 0.014 G/A ASW rs4851563 2 102251967 0.026 1 HapMap HapMap A 0.934 T 0.066 A/T CEU rs4851563 2 102251967 0.159 1 HapMap HapMap A 0.898 T 0.102 A/T GIH rs4851563 2 102251967 0.021 1 HapMap HapMap A 0.994 T 0.006 A/T MEX rs4851563 2 102251967 0.128 1 HapMap HapMap A 0.96 T 0.04 A/T MEX rs4851574 2 102391142 0.04 1 HapMap HapMap A 0.9 T 0.1 A/T MKK rs4851574 2 102391142 0.008 0.896 HapMap HapMap A 0.986 T 0.014 A/T GIH rs4851574 2 102391142 0.013 1 HapMap HapMap A 0.955 T 0.045 A/T JPT rs4851574 2 102391142 0.04 1 HapMap HapMap A 0.86 T 0.14 A/T LWK rs4851574 2 102391142 0.018 1 HapMap HapMap A 0.994 T 0.006 A/T ASW rs4851574 2 102391142 0.066 1 HapMap HapMap A 0.972 T 0.028 A/T CEU rs4851574 2 102391142 0.031 1 HapMap HapMap A 0.965 T 0.035 A/T CHD rs4851574 2 102391142 0.031 1 HapMap HapMap A 0.8 T 0.2 A/T CEU rs4851581 2 102401181 0.216 1 HapMap HapMap A 0.878 G 0.122 A/G MEX rs4851581 2 102401181 0.195 1 HapMap HapMap A 0.939 G 0.061 A/G GIH rs4851589 2 102443577 0.319 0.685 HapMap HapMap A 0.847 G 0.153 A/G MEX rs4851589 2 102443577 0.185 0.645 HapMap HapMap A 0.867 G 0.133 A/G CEU rs4851589 2 102443577 0.337 0.656 HapMap HapMap A 0.646 G 0.354 A/G CEU rs4851593 2 102455659 0.337 0.656 HapMap HapMap A 0.655 G 0.345 A/G GIH rs4851593 2 102455659 0.319 0.685 HapMap HapMap A 0.847 G 0.153 A/G MEX rs4851593 2 102455659 0.209 0.671 HapMap HapMap A 0.86 G 0.14 A/G CHD rs4851600 2 102482655 0.021 0.633 HapMap HapMap C 0.708 G 0.292 C/G JPT rs4851600 2 102482655 0.09 1 HapMap HapMap C 0.733 G 0.267 C/G CEU rs4851600 2 102482655 0.232 0.898 HapMap HapMap C 0.27 G 0.73 C/G CHD rs4851601 2 102482693 0.004 1 HapMap HapMap G 0.971 A 0.029 G/A MKK rs4851601 2 102482693 0.04 1 HapMap HapMap G 0.972 A 0.028 G/A CHB rs4851601 2 102482693 0.008 1 HapMap HapMap G 0.94 A 0.06 G/A CHD rs4851602 2 102482737 0.044 1 HapMap HapMap G 0.744 A 0.256 G/A JPT rs4851602 2 102482737 0.08 1 HapMap HapMap G 0.75 A 0.25 G/A JPT rs4851604 2 102485313 0.071 1 HapMap HapMap G 0.773 A 0.227 G/A CHD rs4851604 2 102485313 0.035 1 HapMap HapMap G 0.782 A 0.218 G/A CHD rs4851615 2 102513431 0.039 0.752 HapMap HapMap G 0.647 T 0.353 G/T CEU rs4851616 2 102518294 0.145 0.859 HapMap HapMap C 0.19 T 0.81 C/T CHB rs4851616 2 102518294 0.155 1 HapMap HapMap C 0.518 T 0.482 C/T CHD rs4851616 2 102518294 0.129 1 HapMap HapMap C 0.506 T 0.494 C/T JPT rs4851616 2 102518294 0.111 1 HapMap HapMap C 0.413 T 0.587 C/T ASW rs4988955 2 102334360 1 1 HapMap HapMap A 0.314 G 0.686 A/G CEU rs4988955 2 102334360 1 1 HapMap HapMap A 0.59 G 0.41 A/G CHB rs4988955 2 102334360 1 1 HapMap HapMap A 0.857 G 0.143 A/G CHD rs4988955 2 102334360 1 1 HapMap HapMap A 0.887 G 0.113 A/G GIH rs4988955 2 102334360 1 1 HapMap HapMap A 0.791 G 0.209 A/G JPT rs4988955 2 102334360 1 1 HapMap HapMap A 0.845 G 0.155 A/G LWK rs4988955 2 102334360 1 1 HapMap HapMap A 0.242 G 0.758 A/G MEX rs4988955 2 102334360 1 1 HapMap HapMap A 0.724 G 0.276 A/G MKK rs4988955 2 102334360 1 1 HapMap HapMap A 0.421 G 0.579 A/G YRI rs4988955 2 102334360 1 1 HapMap HapMap A 0.235 G 0.765 A/G CHB rs4988957 2 102334507 1 1 HapMap HapMap T 0.857 C 0.143 T/C ASW rs4988957 2 102334507 1 1 HapMap HapMap T 0.302 C 0.698 T/C CEU rs4988957 2 102334507 1 1 HapMap HapMap T 0.593 C 0.407 T/C CHD rs4988957 2 102334507 1 1 HapMap HapMap T 0.888 C 0.112 T/C GIH rs4988957 2 102334507 1 1 HapMap HapMap T 0.79 C 0.21 T/C JPT rs4988957 2 102334507 1 1 HapMap HapMap T 0.849 C 0.151 T/C LWK rs4988957 2 102334507 1 1 HapMap HapMap T 0.239 C 0.761 T/C MEX rs4988957 2 102334507 1 1 HapMap HapMap T 0.73 C 0.27 T/C MKK rs4988957 2 102334507 1 1 HapMap HapMap T 0.42 C 0.58 T/C YRI rs4988957 2 102334507 1 1 HapMap HapMap T 0.235 C 0.765 T/C ASW rs4988958 2 102334717 1 1 HapMap HapMap T 0.302 C 0.698 T/C CEU rs4988958 2 102334717 1 1 HapMap HapMap T 0.593 C 0.407 T/C CHB rs4988958 2 102334717 1 1 HapMap HapMap T 0.857 C 0.143 T/C CHD rs4988958 2 102334717 1 1 HapMap HapMap T 0.888 C 0.112 T/C GIH rs4988958 2 102334717 1 1 HapMap HapMap T 0.79 C 0.21 T/C JPT rs4988958 2 102334717 1 1 HapMap HapMap T 0.849 C 0.151 T/C LWK rs4988958 2 102334717 0.97 1 HapMap HapMap T 0.244 C 0.756 T/C MEX rs4988958 2 102334717 1 1 HapMap HapMap T 0.735 C 0.265 T/C MKK rs4988958 2 102334717 1 1 HapMap HapMap T 0.42 C 0.58 T/C YRI rs4988958 2 102334717 1 1 HapMap HapMap T 0.237 C 0.763 T/C CEU rs6543113 2 102277489 0.535 0.942 HapMap HapMap C 0.699 T 0.301 C/T CHB rs6543113 2 102277489 0.073 1 HapMap HapMap C 0.994 T 0.006 C/T CHD rs6543113 2 102277489 0.047 1 HapMap HapMap C 0.994 T 0.006 C/T GIH rs6543113 2 102277489 0.405 0.87 HapMap HapMap C 0.875 T 0.125 C/T MEX rs6543113 2 102277489 0.307 0.628 HapMap HapMap C 0.796 T 0.204 C/T CHB rs6543146 2 102463127 0.142 0.667 HapMap HapMap T 0.655 G 0.345 T/G CHD rs6543146 2 102463127 0.121 0.679 HapMap HapMap T 0.673 G 0.327 T/G CEU rs6543148 2 102466651 0.047 1 HapMap HapMap A 0.934 G 0.066 A/G CHD rs6543148 2 102466651 0.002 0.614 HapMap HapMap A 0.965 G 0.035 A/G GIH rs6543148 2 102466651 0.01 1 HapMap HapMap A 0.966 G 0.034 A/G JPT rs6543148 2 102466651 0.005 1 HapMap HapMap A 0.977 G 0.023 A/G MEX rs6543148 2 102466651 0.017 1 HapMap HapMap A 0.96 G 0.04 A/G CEU rs6543150 2 102480415 0.232 0.898 HapMap HapMap C 0.275 T 0.725 C/T CHB rs6543150 2 102480415 0.132 0.677 HapMap HapMap C 0.649 T 0.351 C/T CHD rs6543150 2 102480415 0.147 0.776 HapMap HapMap C 0.648 T 0.352 C/T JPT rs6543150 2 102480415 0.102 0.604 HapMap HapMap C 0.61 T 0.39 C/T YRI rs6543150 2 102480415 0.015 1 HapMap HapMap C 0.031 T 0.969 C/T JPT rs6543156 2 102482582 0.6 1 HapMap HapMap C 0.872 T 0.128 C/T MEX rs6543156 2 102482582 0.031 1 HapMap HapMap C 0.99 T 0.01 C/T GIH rs6543156 2 102482582 0.021 1 HapMap HapMap C 0.994 T 0.006 C/T CHB rs6543156 2 102482582 0.546 1 HapMap HapMap C 0.909 T 0.091 C/T CHD rs6543156 2 102482582 0.603 1 HapMap HapMap C 0.929 T 0.071 C/T ASW rs6708413 2 102429801 0.022 1 HapMap HapMap G 0.038 A 0.962 G/A CHB rs6708413 2 102429801 0.141 1 HapMap HapMap G 0.476 A 0.524 G/A CHD rs6708413 2 102429801 0.129 1 HapMap HapMap G 0.506 A 0.494 G/A GIH rs6708413 2 102429801 0.141 0.803 HapMap HapMap G 0.443 A 0.557 G/A JPT rs6708413 2 102429801 0.105 1 HapMap HapMap G 0.413 A 0.587 G/A CEU rs6708413 2 102429801 0.209 1 HapMap HapMap G 0.204 A 0.796 G/A MEX rs6708413 2 102429801 0.304 1 HapMap HapMap G 0.44 A 0.56 G/A MKK rs6708413 2 102429801 0.118 0.643 HapMap HapMap G 0.171 A 0.829 G/A LWK rs6708413 2 102429801 0.051 1 HapMap HapMap G 0.139 A 0.861 G/A YRI rs6708949 2 102490397 0.023 1 HapMap HapMap G 0.018 C 0.982 G/C MKK rs6708949 2 102490397 0.072 0.774 HapMap HapMap G 0.08 C 0.92 G/C CEU rs6708949 2 102490397 0.145 0.859 HapMap HapMap G 0.186 C 0.814 G/C GIH rs6708949 2 102490397 0.045 0.658 HapMap HapMap G 0.273 C 0.727 G/C JPT rs6708949 2 102490397 0.111 1 HapMap HapMap G 0.407 C 0.593 G/C ASW rs6708949 2 102490397 0.031 1 HapMap HapMap G 0.009 C 0.991 G/C CHB rs6708949 2 102490397 0.148 1 HapMap HapMap G 0.5 C 0.5 G/C CHD rs6708949 2 102490397 0.125 1 HapMap HapMap G 0.494 C 0.506 G/C LWK rs6708949 2 102490397 0.129 1 HapMap HapMap G 0.039 C 0.961 G/C GIH rs6710528 2 102382574 0.703 0.924 HapMap HapMap C 0.756 T 0.244 C/T JPT rs6710528 2 102382574 0.85 1 HapMap HapMap C 0.831 T 0.169 C/T MEX rs6710528 2 102382574 0.709 0.939 HapMap HapMap C 0.68 T 0.32 C/T MKK rs6710528 2 102382574 0.278 0.732 HapMap HapMap C 0.273 T 0.727 C/T ASW rs6710528 2 102382574 0.353 0.712 HapMap HapMap C 0.245 T 0.755 C/T CEU rs6710528 2 102382574 0.759 1 HapMap HapMap C 0.482 T 0.518 C/T CHB rs6710528 2 102382574 0.564 0.892 HapMap HapMap C 0.833 T 0.167 C/T CHD rs6710528 2 102382574 0.614 0.874 HapMap HapMap C 0.863 T 0.137 C/T ASW rs6710885 2 102343969 0.871 1 HapMap HapMap A 0.717 G 0.283 A/G CEU rs6710885 2 102343969 0.414 1 HapMap HapMap A 0.622 G 0.378 A/G CHB rs6710885 2 102343969 0.111 1 HapMap HapMap A 0.613 G 0.387 A/G CHD rs6710885 2 102343969 0.074 1 HapMap HapMap A 0.629 G 0.371 A/G GIH rs6710885 2 102343969 0.132 1 HapMap HapMap A 0.665 G 0.335 A/G JPT rs6710885 2 102343969 0.187 1 HapMap HapMap A 0.577 G 0.423 A/G LWK rs6710885 2 102343969 0.818 0.965 HapMap HapMap A 0.787 G 0.213 A/G MKK rs6710885 2 102343969 0.666 1 HapMap HapMap A 0.675 G 0.325 A/G YRI rs6710885 2 102343969 0.829 1 HapMap HapMap A 0.792 G 0.208 A/G CEU rs6724109 2 102491450 0.145 0.859 HapMap HapMap C 0.19 G 0.81 C/G CHD rs6724109 2 102491450 0.039 0.627 HapMap HapMap C 0.565 G 0.435 C/G ASW rs6731042 2 102214688 0.074 0.657 HapMap HapMap C 0.736 A 0.264 C/A MEX rs6731042 2 102214688 0.118 0.848 HapMap HapMap C 0.69 A 0.31 C/A MKK rs6731042 2 102214688 0.096 0.635 HapMap HapMap C 0.752 A 0.248 C/A CEU rs6737325 2 102465225 0.047 1 HapMap HapMap C 0.929 T 0.071 C/T CHD rs6737325 2 102465225 0.002 0.637 HapMap HapMap C 0.964 T 0.036 C/T GIH rs6737325 2 102465225 0.01 1 HapMap HapMap C 0.966 T 0.034 C/T JPT rs6737325 2 102465225 0.005 1 HapMap HapMap C 0.977 T 0.023 C/T MEX rs6737325 2 102465225 0.017 1 HapMap HapMap C 0.96 T 0.04 C/T ASW rs6741230 2 102436063 0.043 0.65 HapMap HapMap C 0.802 T 0.198 C/T CEU rs6741230 2 102436063 0.264 1 HapMap HapMap C 0.845 T 0.155 C/T CHB rs6741230 2 102436063 0.223 1 HapMap HapMap C 0.976 T 0.024 C/T CHD rs6741230 2 102436063 0.093 0.697 HapMap HapMap C 0.976 T 0.024 C/T GIH rs6741230 2 102436063 0.481 1 HapMap HapMap C 0.886 T 0.114 C/T JPT rs6741230 2 102436063 0.185 1 HapMap HapMap C 0.983 T 0.017 C/T LWK rs6741230 2 102436063 0.058 1 HapMap HapMap C 0.844 T 0.156 C/T MEX rs6741230 2 102436063 0.128 1 HapMap HapMap C 0.95 T 0.05 C/T MKK rs6741230 2 102436063 0.111 0.863 HapMap HapMap C 0.829 T 0.171 C/T CEU rs6741235 2 102483715 0.232 0.898 HapMap HapMap G 0.265 A 0.735 G/A CHD rs6741235 2 102483715 0.021 0.639 HapMap HapMap G 0.706 A 0.294 G/A JPT rs6741235 2 102483715 0.09 1 HapMap HapMap G 0.733 A 0.267 G/A ASW rs6742280 2 102502769 0.038 1 HapMap HapMap A 0.915 G 0.085 A/G LWK rs6742280 2 102502769 0.01 0.964 HapMap HapMap A 0.967 G 0.033 A/G YRI rs6742280 2 102502769 0.035 1 HapMap HapMap A 0.912 G 0.088 A/G ASW rs6743516 2 102402767 0.358 0.778 HapMap HapMap A 0.226 G 0.774 A/G CEU rs6743516 2 102402767 0.759 1 HapMap HapMap A 0.473 G 0.527 A/G CHB rs6743516 2 102402767 0.564 0.892 HapMap HapMap A 0.833 G 0.167 A/G CHD rs6743516 2 102402767 0.615 0.874 HapMap HapMap A 0.865 G 0.135 A/G MEX rs6743516 2 102402767 0.707 0.938 HapMap HapMap A 0.673 G 0.327 A/G MKK rs6743516 2 102402767 0.223 0.699 HapMap HapMap A 0.248 G 0.752 A/G GIH rs6743516 2 102402767 0.678 0.923 HapMap HapMap A 0.744 G 0.256 A/G JPT rs6743516 2 102402767 0.85 1 HapMap HapMap A 0.829 G 0.171 A/G ASW rs6744454 2 102165584 0.063 1 HapMap HapMap G 0.019 A 0.981 G/A CHB rs6744454 2 102165584 0.002 1 HapMap HapMap G 0.006 A 0.994 G/A CHD rs6744454 2 102165584 0.001 1 HapMap HapMap G 0.006 A 0.994 G/A GIH rs6744454 2 102165584 0.045 1 HapMap HapMap G 0.142 A 0.858 G/A MKK rs6744454 2 102165584 0.076 0.701 HapMap HapMap G 0.102 A 0.898 G/A CEU rs6747153 2 102270259 0.148 0.622 HapMap HapMap A 0.246 G 0.754 A/G YRI rs6747153 2 102270259 0.035 1 HapMap HapMap A 0.071 G 0.929 A/G CHD rs6749014 2 102372880 0.649 0.876 HapMap HapMap C 0.869 T 0.131 C/T MKK rs6749014 2 102372880 0.278 0.732 HapMap HapMap C 0.273 T 0.727 C/T CHB rs6749014 2 102372880 0.564 0.892 HapMap HapMap C 0.833 T 0.167 C/T ASW rs6749014 2 102372880 0.408 0.796 HapMap HapMap C 0.236 T 0.764 C/T CEU rs6749014 2 102372880 0.759 1 HapMap HapMap C 0.482 T 0.518 C/T GIH rs6749014 2 102372880 0.703 0.924 HapMap HapMap C 0.756 T 0.244 C/T JPT rs6749014 2 102372880 0.85 1 HapMap HapMap C 0.831 T 0.169 C/T MEX rs6749014 2 102372880 0.709 0.939 HapMap HapMap C 0.68 T 0.32 C/T CEU rs6750851 2 102505193 0.145 0.859 HapMap HapMap A 0.192 G 0.808 A/G CHB rs6750851 2 102505193 0.148 1 HapMap HapMap A 0.5 G 0.5 A/G CHD rs6750851 2 102505193 0.119 1 HapMap HapMap A 0.494 G 0.506 A/G JPT rs6750851 2 102505193 0.111 1 HapMap HapMap A 0.407 G 0.593 A/G GIH rs6750851 2 102505193 0.04 0.625 HapMap HapMap A 0.273 G 0.727 A/G CEU rs6751666 2 102465003 0.047 1 HapMap HapMap A 0.934 G 0.066 A/G CHD rs6751666 2 102465003 0.002 0.614 HapMap HapMap A 0.965 G 0.035 A/G GIH rs6751666 2 102465003 0.01 1 HapMap HapMap A 0.966 G 0.034 A/G JPT rs6751666 2 102465003 0.005 1 HapMap HapMap A 0.977 G 0.023 A/G MEX rs6751666 2 102465003 0.017 1 HapMap HapMap A 0.96 G 0.04 A/G CHD rs6752589 2 102221730 0.02 1 HapMap HapMap A 0.135 G 0.865 A/G JPT rs6752589 2 102221730 0.062 1 HapMap HapMap A 0.227 G 0.773 A/G LWK rs6752589 2 102221730 0.018 0.676 HapMap HapMap A 0.111 G 0.889 A/G MEX rs6752589 2 102221730 0.161 0.779 HapMap HapMap A 0.42 G 0.58 A/G MEX rs6756407 2 102402533 0.013 1 HapMap HapMap G 0.97 T 0.03 G/T MKK rs6756407 2 102402533 0.093 0.625 HapMap HapMap G 0.853 T 0.147 G/T CEU rs6756407 2 102402533 0.056 1 HapMap HapMap G 0.92 T 0.08 G/T CHD rs6756407 2 102402533 0.004 1 HapMap HapMap G 0.971 T 0.029 G/T GIH rs6756407 2 102402533 0.008 1 HapMap HapMap G 0.972 T 0.028 G/T JPT rs6756407 2 102402533 0.005 1 HapMap HapMap G 0.976 T 0.024 G/T LWK rs6756407 2 102402533 0.177 0.731 HapMap HapMap G 0.906 T 0.094 G/T GIH rs6758443 2 102214494 0.015 0.606 HapMap HapMap G 0.869 T 0.131 G/T MEX rs6758443 2 102214494 0.085 0.607 HapMap HapMap G 0.61 T 0.39 G/T CHD rs6758936 2 102357801 0.615 0.874 HapMap HapMap G 0.865 A 0.135 G/A GIH rs6758936 2 102357801 0.703 0.924 HapMap HapMap G 0.756 A 0.244 G/A JPT rs6758936 2 102357801 0.85 1 HapMap HapMap G 0.829 A 0.171 G/A MEX rs6758936 2 102357801 0.709 0.939 HapMap HapMap G 0.68 A 0.32 G/A MKK rs6758936 2 102357801 0.274 0.729 HapMap HapMap G 0.271 A 0.729 G/A CHB rs6758936 2 102357801 0.562 0.891 HapMap HapMap G 0.831 A 0.169 G/A ASW rs6758936 2 102357801 0.408 0.796 HapMap HapMap G 0.236 A 0.764 G/A CEU rs6758936 2 102357801 0.759 1 HapMap HapMap G 0.482 A 0.518 G/A CHD rs6761291 2 102521501 0.039 0.752 HapMap HapMap C 0.647 T 0.353 C/T JPT rs741285 2 102514601 0.05 0.62 HapMap HapMap C 0.436 T 0.564 C/T CHB rs741285 2 102514601 0.17 1 HapMap HapMap C 0.53 T 0.47 C/T CHD rs741285 2 102514601 0.098 0.814 HapMap HapMap C 0.541 T 0.459 C/T LWK rs7559479 2 102435219 0.032 0.764 HapMap HapMap G 0.15 A 0.85 G/A MEX rs7559479 2 102435219 0.304 1 HapMap HapMap G 0.429 A 0.571 G/A MKK rs7559479 2 102435219 0.117 0.64 HapMap HapMap G 0.173 A 0.827 G/A YRI rs7559479 2 102435219 0.054 0.666 HapMap HapMap G 0.049 A 0.951 G/A ASW rs7559479 2 102435219 0.022 1 HapMap HapMap G 0.038 A 0.962 G/A CEU rs7559479 2 102435219 0.209 1 HapMap HapMap G 0.204 A 0.796 G/A CHB rs7559479 2 102435219 0.141 1 HapMap HapMap G 0.476 A 0.524 G/A CHD rs7559479 2 102435219 0.129 1 HapMap HapMap G 0.506 A 0.494 G/A GIH rs7559479 2 102435219 0.141 0.803 HapMap HapMap G 0.443 A 0.557 G/A JPT rs7559479 2 102435219 0.105 1 HapMap HapMap G 0.412 A 0.588 G/A ASW rs7560478 2 102178958 0.085 0.794 HapMap HapMap T 0.783 C 0.217 T/C LWK rs7560478 2 102178958 0.051 1 HapMap HapMap T 0.861 C 0.139 T/C MEX rs7560478 2 102178958 0.118 0.848 HapMap HapMap T 0.69 C 0.31 T/C MKK rs7560478 2 102178958 0.131 0.808 HapMap HapMap T 0.783 C 0.217 T/C JPT rs7566613 2 102466927 0.005 1 HapMap HapMap G 0.977 A 0.023 G/A MEX rs7566613 2 102466927 0.017 1 HapMap HapMap G 0.96 A 0.04 G/A CEU rs7566613 2 102466927 0.047 1 HapMap HapMap G 0.934 A 0.066 G/A GIH rs7566613 2 102466927 0.011 1 HapMap HapMap G 0.96 A 0.04 G/A CEU rs7567885 2 102475284 0.222 0.893 HapMap HapMap T 0.268 G 0.732 T/G JPT rs7567885 2 102475284 0.09 1 HapMap HapMap T 0.738 G 0.262 T/G CHB rs7568913 2 102286469 0.141 1 HapMap HapMap T 0.47 C 0.53 T/C CHD rs7568913 2 102286469 0.134 1 HapMap HapMap T 0.512 C 0.488 T/C JPT rs7568913 2 102286469 0.095 1 HapMap HapMap T 0.384 C 0.616 T/C CEU rs7570468 2 102206539 0.008 1 HapMap HapMap C 0.982 A 0.018 C/A MKK rs7570468 2 102206539 0.017 0.655 HapMap HapMap C 0.972 A 0.028 C/A ASW rs7571371 2 102320159 0.046 1 HapMap HapMap C 0.925 T 0.075 C/T JPT rs7571371 2 102320159 0.002 1 HapMap HapMap C 0.994 T 0.006 C/T LWK rs7571371 2 102320159 0.02 1 HapMap HapMap C 0.939 T 0.061 C/T MKK rs7571371 2 102320159 0.037 1 HapMap HapMap C 0.951 T 0.049 C/T YRI rs7571371 2 102320159 0.024 1 HapMap HapMap C 0.96 T 0.04 C/T CEU rs7575867 2 102486611 0.245 1 HapMap HapMap C 0.863 T 0.137 C/T MKK rs7575867 2 102486611 0.1 0.909 HapMap HapMap C 0.857 T 0.143 C/T LWK rs7575867 2 102486611 0.055 1 HapMap HapMap C 0.85 T 0.15 C/T JPT rs7575867 2 102486611 0.122 1 HapMap HapMap C 0.983 T 0.017 C/T CHB rs7575867 2 102486611 0.147 1 HapMap HapMap C 0.988 T 0.012 C/T CEU rs7579737 2 102353793 0.26 0.614 HapMap HapMap A 0.646 G 0.354 A/G GIH rs7579737 2 102353793 0.291 0.669 HapMap HapMap A 0.852 G 0.148 A/G YRI rs7582710 2 102353917 0.027 1 HapMap HapMap T 0.92 G 0.08 T/G ASW rs7582710 2 102353917 0.046 1 HapMap HapMap T 0.925 G 0.075 T/G LWK rs7582710 2 102353917 0.013 1 HapMap HapMap T 0.961 G 0.039 T/G MKK rs7582710 2 102353917 0.032 1 HapMap HapMap T 0.958 G 0.042 T/G MEX rs7583215 2 102220486 0.132 0.851 HapMap HapMap C 0.67 T 0.33 C/T MKK rs7583215 2 102220486 0.112 0.619 HapMap HapMap C 0.708 T 0.292 C/T CEU rs7583683 2 102480195 0.245 1 HapMap HapMap A 0.863 G 0.137 A/G CHB rs7583683 2 102480195 0.073 1 HapMap HapMap A 0.994 G 0.006 A/G LWK rs7583683 2 102480195 0.053 1 HapMap HapMap A 0.856 G 0.144 A/G MKK rs7583683 2 102480195 0.101 1 HapMap HapMap A 0.878 G 0.122 A/G CHD rs7591872 2 102479073 0.133 0.768 HapMap HapMap G 0.641 C 0.359 G/C GIH rs7591872 2 102479073 0.059 0.713 HapMap HapMap G 0.295 C 0.705 G/C JPT rs7591872 2 102479073 0.102 0.604 HapMap HapMap G 0.605 C 0.395 G/C YRI rs7591872 2 102479073 0.015 1 HapMap HapMap G 0.031 C 0.969 G/C ASW rs7591872 2 102479073 0.063 1 HapMap HapMap G 0.038 C 0.962 G/C CEU rs7591872 2 102479073 0.232 0.898 HapMap HapMap G 0.27 C 0.73 G/C CHB rs7591872 2 102479073 0.132 0.677 HapMap HapMap G 0.643 C 0.357 G/C CEU rs759382 2 102460645 0.209 1 HapMap HapMap G 0.221 T 0.779 G/T CHB rs759382 2 102460645 0.148 1 HapMap HapMap G 0.5 T 0.5 G/T CHD rs759382 2 102460645 0.138 1 HapMap HapMap G 0.524 T 0.476 G/T JPT rs759382 2 102460645 0.111 1 HapMap HapMap G 0.424 T 0.576 G/T MKK rs759382 2 102460645 0.109 0.625 HapMap HapMap G 0.168 T 0.832 G/T GIH rs759382 2 102460645 0.108 0.71 HapMap HapMap G 0.438 T 0.562 G/T MEX rs759382 2 102460645 0.304 1 HapMap HapMap G 0.44 T 0.56 G/T LWK rs7600961 2 102401887 0.055 1 HapMap HapMap G 0.85 A 0.15 G/A MEX rs7600961 2 102401887 0.128 1 HapMap HapMap G 0.95 A 0.05 G/A MKK rs7600961 2 102401887 0.134 0.882 HapMap HapMap G 0.808 A 0.192 G/A CEU rs7600961 2 102401887 0.264 1 HapMap HapMap G 0.845 A 0.155 G/A CHB rs7600961 2 102401887 0.223 1 HapMap HapMap G 0.976 A 0.024 G/A CHD rs7600961 2 102401887 0.093 0.697 HapMap HapMap G 0.976 A 0.024 G/A GIH rs7600961 2 102401887 0.481 1 HapMap HapMap G 0.886 A 0.114 G/A JPT rs7600961 2 102401887 0.185 1 HapMap HapMap G 0.983 A 0.017 G/A CEU rs7601773 2 102486915 0.245 1 HapMap HapMap G 0.863 T 0.137 G/T CHB rs7601773 2 102486915 0.147 1 HapMap HapMap G 0.988 T 0.012 G/T JPT rs7601773 2 102486915 0.122 1 HapMap HapMap G 0.983 T 0.017 G/T MKK rs7601773 2 102486915 0.1 0.909 HapMap HapMap G 0.857 T 0.143 G/T LWK rs7601773 2 102486915 0.055 1 HapMap HapMap G 0.85 T 0.15 G/T ASW rs7603730 2 102340803 0.877 1 HapMap HapMap A 0.33 C 0.67 A/C CEU rs7603730 2 102340803 1 1 HapMap HapMap A 0.593 C 0.407 A/C CHB rs7603730 2 102340803 1 1 HapMap HapMap A 0.857 C 0.143 A/C CHD rs7603730 2 102340803 1 1 HapMap HapMap A 0.888 C 0.112 A/C GIH rs7603730 2 102340803 1 1 HapMap HapMap A 0.79 C 0.21 A/C JPT rs7603730 2 102340803 1 1 HapMap HapMap A 0.849 C 0.151 A/C LWK rs7603730 2 102340803 0.569 1 HapMap HapMap A 0.356 C 0.644 A/C MEX rs7603730 2 102340803 1 1 HapMap HapMap A 0.73 C 0.27 A/C MKK rs7603730 2 102340803 0.855 1 HapMap HapMap A 0.458 C 0.542 A/C YRI rs7603730 2 102340803 0.956 1 HapMap HapMap A 0.257 C 0.743 A/C CEU rs871657 2 102137773 0.189 0.878 HapMap HapMap C 0.836 T 0.164 C/T CHB rs871657 2 102137773 0.063 1 HapMap HapMap C 0.732 T 0.268 C/T MEX rs871657 2 102137773 0.369 0.892 HapMap HapMap C 0.85 T 0.15 C/T CEU rs871659 2 102138287 0.112 0.732 HapMap HapMap G 0.23 A 0.77 G/A JPT rs871659 2 102138287 0.03 1 HapMap HapMap G 0.105 A 0.895 G/A YRI rs871659 2 102138287 0.054 0.666 HapMap HapMap G 0.062 A 0.938 G/A CHB rs885088 2 102405476 0.564 0.892 HapMap HapMap A 0.833 G 0.167 A/G CHD rs885088 2 102405476 0.615 0.874 HapMap HapMap A 0.865 G 0.135 A/G GIH rs885088 2 102405476 0.68 0.923 HapMap HapMap A 0.75 G 0.25 A/G JPT rs885088 2 102405476 0.85 1 HapMap HapMap A 0.831 G 0.169 A/G MEX rs885088 2 102405476 0.672 0.937 HapMap HapMap A 0.67 G 0.33 A/G MKK rs885088 2 102405476 0.214 0.692 HapMap HapMap A 0.245 G 0.755 A/G ASW rs885088 2 102405476 0.358 0.778 HapMap HapMap A 0.226 G 0.774 A/G CEU rs885088 2 102405476 0.759 1 HapMap HapMap A 0.482 G 0.518 A/G JPT rs917997 2 102437000 0.105 1 HapMap HapMap T 0.413 C 0.587 T/C LWK rs917997 2 102437000 0.032 0.764 HapMap HapMap T 0.15 C 0.85 T/C MEX rs917997 2 102437000 0.304 1 HapMap HapMap T 0.44 C 0.56 T/C CHB rs917997 2 102437000 0.141 1 HapMap HapMap T 0.476 C 0.524 T/C CHD rs917997 2 102437000 0.129 1 HapMap HapMap T 0.506 C 0.494 T/C GIH rs917997 2 102437000 0.141 0.803 HapMap HapMap T 0.443 C 0.557 T/C ASW rs917997 2 102437000 0.022 1 HapMap HapMap T 0.038 C 0.962 T/C CEU rs917997 2 102437000 0.209 1 HapMap HapMap T 0.204 C 0.796 T/C MKK rs917997 2 102437000 0.118 0.643 HapMap HapMap T 0.171 C 0.829 T/C YRI rs917997 2 102437000 0.054 0.666 HapMap HapMap T 0.049 C 0.951 T/C ASW rs917998 2 102434588 0.031 1 HapMap HapMap C 0.962 T 0.038 C/T CEU rs917998 2 102434588 0.21 1 HapMap HapMap C 0.881 T 0.119 C/T LWK rs917998 2 102434588 0.002 1 HapMap HapMap C 0.994 T 0.006 C/T MEX rs917998 2 102434588 0.196 1 HapMap HapMap C 0.94 T 0.06 C/T YRI rs917998 2 102434588 0.019 1 HapMap HapMap C 0.96 T 0.04 C/T ASW rs9308856 2 102261874 0.038 1 HapMap HapMap A 0.943 G 0.057 A/G LWK rs9308856 2 102261874 0.017 1 HapMap HapMap A 0.95 G 0.05 A/G MEX rs9308856 2 102261874 0.031 1 HapMap HapMap A 0.99 G 0.01 A/G MKK rs9308856 2 102261874 0.078 1 HapMap HapMap A 0.902 G 0.098 A/G YRI rs9308856 2 102261874 0.023 1 HapMap HapMap A 0.947 G 0.053 A/G CEU rs949963 2 102136218 0.189 0.878 HapMap HapMap C 0.836 T 0.164 C/T CHB rs949963 2 102136218 0.063 1 HapMap HapMap C 0.732 T 0.268 C/T MEX rs949963 2 102136218 0.369 0.892 HapMap HapMap C 0.85 T 0.15 C/T GIH rs951193 2 102152231 0.003 1 HapMap HapMap C 0.989 T 0.011 C/T ASW rs951774 2 102279096 0.063 1 HapMap HapMap C 0.953 A 0.047 C/A CEU rs951774 2 102279096 0.209 1 HapMap HapMap C 0.823 A 0.177 C/A CHB rs951774 2 102279096 0.049 1 HapMap HapMap C 0.78 A 0.22 C/A CHD rs951774 2 102279096 0.018 0.681 HapMap HapMap C 0.759 A 0.241 C/A GIH rs951774 2 102279096 0.149 0.9 HapMap HapMap C 0.603 A 0.397 C/A LWK rs951774 2 102279096 0.112 0.646 HapMap HapMap C 0.921 A 0.079 C/A MEX rs951774 2 102279096 0.242 1 HapMap HapMap C 0.61 A 0.39 C/A MKK rs951774 2 102279096 0.115 1 HapMap HapMap C 0.923 A 0.077 C/A YRI rs951774 2 102279096 0.131 0.81 HapMap HapMap C 0.947 A 0.053 C/A GIH rs955754 2 102215513 0.015 0.606 HapMap HapMap T 0.869 C 0.131 T/C MEX rs955754 2 102215513 0.085 0.607 HapMap HapMap T 0.61 C 0.39 T/C ASW rs995515 2 102205814 0.103 0.712 HapMap HapMap T 0.915 C 0.085 T/C LWK rs995515 2 102205814 0.077 0.771 HapMap HapMap T 0.961 C 0.039 T/C YRI rs995515 2 102205814 0.047 1 HapMap HapMap T 0.987 C 0.013 T/C LWK rs17026901 2 102256818 0.018 1 HapMap HapMap T 0.994 C 0.006 T/C CHB rs17026901 2 102256818 0.028 1 HapMap HapMap T 0.869 C 0.131 T/C CHB rs11904409 2 102169616 0.073 1 HapMap HapMap G 0.97 A 0.03 G/A LWK rs2310239 2 102190633 0.072 0.657 HapMap HapMap G 0.95 A 0.05 G/A ASW rs2310239 2 102190633 0.072 0.64 HapMap HapMap G 0.923 A 0.077 G/A MKK rs887972 2 102407377 0.023 0.714 HapMap HapMap G 0.968 A 0.032 G/A GIH rs887972 2 102407377 0.119 0.86 HapMap HapMap G 0.625 A 0.375 G/A MEX rs1041973 2 102321900 0.284 0.666 HapMap HapMap C 0.796 A 0.204 C/A CHD rs1041973 2 102321900 0.537 0.783 HapMap HapMap C 0.89 A 0.11 C/A JPT rs1041973 2 102321900 0.531 0.729 HapMap HapMap C 0.823 A 0.177 C/A CEU rs1041973 2 102321900 0.148 0.852 HapMap HapMap C 0.802 A 0.198 C/A MKK rs1362347 2 102286017 0.412 1 HapMap HapMap C 0.77 T 0.23 C/T YRI rs1362347 2 102286017 0.227 1 HapMap HapMap C 0.928 T 0.072 C/T CHB rs1861245 2 102966906 1 1 HapMap 1000GP A NA G NA A/G JPT rs1861245 2 102966906 1 1 HapMap 1000GP A NA G NA A/G JPT rs7559566 2 103028041 0.831 1 HapMap 1000GP G NA T NA G/T CHB rs7559566 2 103028041 0.562 0.891 HapMap 1000GP G NA T NA G/T JPT rs6705385 2 103076569 0.058 0.65 HapMap 1000GP A 0.53 C 0.47 A/C JPT rs6705498 2 103076670 0.058 0.65 HapMap 1000GP A 0.53 G 0.47 A/G JPT rs6719196 2 103076888 0.058 0.65 HapMap 1000GP G 0.53 T 0.47 G/T JPT rs12463588 2 103085257 0.058 0.65 HapMap 1000GP C 0.53 G 0.47 C/G JPT rs2310302 2 103086049 0.058 0.65 HapMap 1000GP G 0.53 C 0.47 G/C JPT rs12469887 2 103086758 0.058 0.65 HapMap 1000GP T 0.53 C 0.47 T/C JPT rs4140786 2 103088176 0.058 0.65 HapMap 1000GP G 0.53 T 0.47 G/T JPT rs4851614 2 103140398 0.05 0.62 HapMap 1000GP C 0.53 T 0.47 C/T CHB rs4851614 2 103140398 0.175 1 HapMap 1000GP C 0.53 T 0.47 C/T JPT rs1357471 2 103140472 0.05 0.62 HapMap 1000GP C 0.53 T 0.47 C/T CHB rs1357471 2 103140472 0.17 1 HapMap 1000GP C 0.53 T 0.47 C/T JPT rs4241211 2 103143159 0.05 0.62 HapMap 1000GP T 0.53 G 0.47 T/G CHB rs4241211 2 103143159 0.17 1 HapMap 1000GP T 0.53 G 0.47 T/G JPT rs12712156 2 103144020 0.05 0.62 HapMap 1000GP A 0.53 C 0.47 A/C CHB rs12712156 2 103144020 0.163 1 HapMap 1000GP A 0.53 C 0.47 A/C CHB rs3849364 2 103144242 0.17 1 HapMap 1000GP T 0.53 C 0.47 T/C JPT rs3849364 2 103144242 0.05 0.62 HapMap 1000GP T 0.53 C 0.47 T/C JPT rs3849365 2 103144391 0.05 0.615 HapMap 1000GP G 0.53 A 0.47 G/A CHB rs3849365 2 103144391 0.17 1 HapMap 1000GP G 0.53 A 0.47 G/A CHB rs1005042 2 103145359 0.186 1 HapMap 1000GP A 0.53 G 0.47 A/G JPT rs1005042 2 103145359 0.05 0.615 HapMap 1000GP A 0.53 G 0.47 A/G JPT rs4851018 2 103146615 0.05 0.62 HapMap 1000GP C 0.53 T 0.47 C/T CHB rs4851018 2 103146615 0.17 1 HapMap 1000GP C 0.53 T 0.47 C/T CHB rs6737119 2 103151109 0.158 1 HapMap 1000GP G 0.53 A 0.47 G/A JPT rs6737119 2 103151109 0.05 0.62 HapMap 1000GP G 0.53 A 0.47 G/A CHB rs6709284 2 103151164 0.17 1 HapMap 1000GP C 0.53 G 0.47 C/G JPT rs6709284 2 103151164 0.05 0.62 HapMap 1000GP C 0.53 G 0.47 C/G JPT rs2177317 2 103151319 0.05 0.62 HapMap 1000GP A 0.53 G 0.47 A/G CHB rs2177317 2 103151319 0.17 1 HapMap 1000GP A 0.53 G 0.47 A/G JPT rs4851617 2 103152060 0.05 0.62 HapMap 1000GP C 0.53 T 0.47 C/T CHB rs4851617 2 103152060 0.17 1 HapMap 1000GP C 0.53 T 0.47 C/T JPT rs4292112 2 103153780 0.05 0.62 HapMap 1000GP G 0.53 A 0.47 G/A CHB rs4292112 2 103153780 0.17 1 HapMap 1000GP G 0.53 A 0.47 G/A JPT rs10490202 2 103160832 0.05 0.62 HapMap 1000GP C 0.53 G 0.47 C/G CHB rs10490202 2 103160832 0.17 1 HapMap 1000GP C 0.53 G 0.47 C/G CHB rs7581853 2 103167724 0.17 1 HapMap 1000GP C 0.53 T 0.47 C/T CHB rs950880 2 102932562 0.111 1 HapMap 1000GP C 0.56 A 0.44 C/A JPT rs950880 2 102932562 0.21 1 HapMap 1000GP C 0.56 A 0.44 C/A CHB rs13001325 2 102939036 0.111 1 HapMap 1000GP C 0.56 T 0.44 C/T JPT rs13001325 2 102939036 0.21 1 HapMap 1000GP C 0.56 T 0.44 C/T CHB rs12479210 2 102949161 0.111 1 HapMap 1000GP C 0.56 T 0.44 C/T JPT rs12479210 2 102949161 0.21 1 HapMap 1000GP C 0.56 T 0.44 C/T CHB rs13017455 2 102964742 0.111 1 HapMap 1000GP C 0.56 T 0.44 C/T JPT rs13017455 2 102964742 0.21 1 HapMap 1000GP C 0.56 T 0.44 C/T CHB rs1024798 2 103141651 0.155 1 HapMap 1000GP G 0.56 C 0.44 G/C JPT rs1024798 2 103141651 0.111 1 HapMap 1000GP G 0.56 C 0.44 G/C JPT rs2871474 2 103151441 0.111 1 HapMap 1000GP G 0.56 A 0.44 G/A CHB rs2871474 2 103151441 0.155 1 HapMap 1000GP G 0.56 A 0.44 G/A CHB rs11685483 2 103159093 0.155 1 HapMap 1000GP A 0.56 C 0.44 A/C JPT rs11685483 2 103159093 0.111 1 HapMap 1000GP A 0.56 C 0.44 A/C JPT rs6739426 2 103160443 0.111 1 HapMap 1000GP A 0.56 G 0.44 A/G CHB rs6739426 2 103160443 0.155 1 HapMap 1000GP A 0.56 G 0.44 A/G JPT rs11899041 2 103161053 0.111 1 HapMap 1000GP T 0.56 A 0.44 T/A CHB rs11899041 2 103161053 0.155 1 HapMap 1000GP T 0.56 A 0.44 T/A CHB rs1303960 2 103165832 0.155 1 HapMap 1000GP G 0.56 A 0.44 G/A JPT rs1303960 2 103165832 0.111 1 HapMap 1000GP G 0.56 A 0.44 G/A JPT rs6543119 2 102963072 0.21 1 HapMap 1000GP A 0.57 T 0.43 A/T CHB rs6543119 2 102963072 0.111 1 HapMap 1000GP A 0.57 T 0.43 A/T JPT rs6718157 2 103079814 0.105 1 HapMap 1000GP A 0.57 T 0.43 A/T CHB rs6718157 2 103079814 0.141 1 HapMap 1000GP A 0.57 T 0.43 A/T CHB rs6737668 2 103093081 0.148 1 HapMap 1000GP C 0.57 T 0.43 C/T JPT rs6737668 2 103093081 0.105 1 HapMap 1000GP C 0.57 T 0.43 C/T CHB rs759381 2 103094323 0.141 1 HapMap 1000GP A 0.57 T 0.43 A/T JPT rs759381 2 103094323 0.117 1 HapMap 1000GP A 0.57 T 0.43 A/T CHB rs6724322 2 103125182 0.148 1 HapMap 1000GP C 0.57 T 0.43 C/T JPT rs6724322 2 103125182 0.111 1 HapMap 1000GP C 0.57 T 0.43 C/T CHB rs4851609 2 103128866 0.148 1 HapMap 1000GP T 0.57 C 0.43 T/C JPT rs4851609 2 103128866 0.111 1 HapMap 1000GP T 0.57 C 0.43 T/C JPT rs2192758 2 103132269 0.111 1 HapMap 1000GP C 0.57 G 0.43 C/G CHB rs2192758 2 103132269 0.148 1 HapMap 1000GP C 0.57 G 0.43 C/G CHB rs2192757 2 103132378 0.148 1 HapMap 1000GP C 0.57 T 0.43 C/T JPT rs2192757 2 103132378 0.111 1 HapMap 1000GP C 0.57 T 0.43 C/T CHB rs6714379 2 103133310 0.144 1 HapMap 1000GP A 0.57 G 0.43 A/G JPT rs6714379 2 103133310 0.109 1 HapMap 1000GP A 0.57 G 0.43 A/G CHB rs4851610 2 103134652 0.148 1 HapMap 1000GP C 0.57 G 0.43 C/G JPT rs4851610 2 103134652 0.111 1 HapMap 1000GP C 0.57 G 0.43 C/G CHB rs1523203 2 103135759 0.148 1 HapMap 1000GP A 0.57 G 0.43 A/G JPT rs1523203 2 103135759 0.111 1 HapMap 1000GP A 0.57 G 0.43 A/G JPT rs4851611 2 103135938 0.111 1 HapMap 1000GP A 0.57 T 0.43 A/T CHB rs4851611 2 103135938 0.148 1 HapMap 1000GP A 0.57 T 0.43 A/T CHB rs4851613 2 103137990 0.148 1 HapMap 1000GP T 0.57 C 0.43 T/C JPT rs4851613 2 103137990 0.111 1 HapMap 1000GP T 0.57 C 0.43 T/C CHB rs6750971 2 103138825 0.148 1 HapMap 1000GP A 0.57 G 0.43 A/G JPT rs6750971 2 103138825 0.111 1 HapMap 1000GP A 0.57 G 0.43 A/G JPT rs11123935 2 103139751 0.111 1 HapMap 1000GP A 0.57 G 0.43 A/G CHB rs11123935 2 103139751 0.148 1 HapMap 1000GP A 0.57 G 0.43 A/G CHB rs997049 2 102782433 0.047 0.603 HapMap 1000GP T 0.58 A 0.42 T/A JPT rs2310220 2 102951851 0.095 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs2310220 2 102951851 0.135 1 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs2058622 2 102985424 0.107 1 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs2058622 2 102985424 0.127 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs3771170 2 102985980 0.105 1 HapMap 1000GP T 0.58 A 0.42 T/A CHB rs3771170 2 102985980 0.124 1 HapMap 1000GP T 0.58 A 0.42 T/A JPT rs2058623 2 102986170 0.107 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs2058623 2 102986170 0.124 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs1465321 2 102986618 0.127 1 HapMap 1000GP T 0.58 C 0.42 T/C JPT rs1465321 2 102986618 0.108 1 HapMap 1000GP T 0.58 C 0.42 T/C JPT rs2270297 2 102992675 0.105 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs2270297 2 102992675 0.135 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs6753717 2 102993161 0.135 1 HapMap 1000GP A 0.58 C 0.42 A/C JPT rs6753717 2 102993161 0.105 1 HapMap 1000GP A 0.58 C 0.42 A/C JPT rs6750020 2 102994714 0.109 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs6750020 2 102994714 0.144 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs17027037 2 102994884 0.038 0.642 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs17027037 2 102994884 0.173 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs2080289 2 102995020 0.173 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs2080289 2 102995020 0.038 0.642 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs11683700 2 102996805 0.191 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs4851570 2 103006387 0.038 0.642 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs4851570 2 103006387 0.173 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs4851007 2 103024813 0.105 1 HapMap 1000GP T 0.58 G 0.42 T/G CHB rs4851007 2 103024813 0.141 1 HapMap 1000GP T 0.58 G 0.42 T/G CHB rs4851575 2 103025203 0.141 1 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs4851575 2 103025203 0.105 1 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs4851008 2 103026611 0.105 1 HapMap 1000GP G 0.58 C 0.42 G/C CHB rs4851008 2 103026611 0.141 1 HapMap 1000GP G 0.58 C 0.42 G/C CHB rs1807782 2 103033147 0.141 1 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs1807782 2 103033147 0.105 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs3771156 2 103036677 0.033 0.62 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs3771156 2 103036677 0.173 1 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs3755268 2 103038527 0.105 1 HapMap 1000GP C 0.58 G 0.42 C/G CHB rs3755268 2 103038527 0.141 1 HapMap 1000GP C 0.58 G 0.42 C/G CHB rs3817465 2 103039584 0.141 1 HapMap 1000GP A 0.58 T 0.42 A/T JPT rs3817465 2 103039584 0.105 1 HapMap 1000GP A 0.58 T 0.42 A/T JPT rs887971 2 103041167 0.173 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs887971 2 103041167 0.033 0.62 HapMap 1000GP T 0.58 C 0.42 T/C JPT rs2160232 2 103046880 0.105 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs2160232 2 103046880 0.148 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs6716784 2 103048467 0.138 1 HapMap 1000GP T 0.58 G 0.42 T/G JPT rs6716784 2 103048467 0.103 1 HapMap 1000GP T 0.58 G 0.42 T/G CHB rs6543134 2 103050458 0.141 1 HapMap 1000GP T 0.58 G 0.42 T/G JPT rs6543134 2 103050458 0.117 1 HapMap 1000GP T 0.58 G 0.42 T/G JPT rs2110735 2 103050925 0.105 1 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs2110735 2 103050925 0.141 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs11681718 2 103051144 0.173 1 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs11681718 2 103051144 0.033 0.613 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs4851582 2 103051558 0.033 0.62 HapMap 1000GP T 0.58 C 0.42 T/C JPT rs4851582 2 103051558 0.178 1 HapMap 1000GP T 0.58 C 0.42 T/C JPT rs2110734 2 103052206 0.113 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs2110734 2 103052206 0.141 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs6746271 2 103052995 0.141 1 HapMap 1000GP G 0.58 C 0.42 G/C JPT rs6746271 2 103052995 0.105 1 HapMap 1000GP G 0.58 C 0.42 G/C CHB rs2058658 2 103054803 0.141 1 HapMap 1000GP T 0.58 C 0.42 T/C JPT rs2058658 2 103054803 0.105 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs4851009 2 103055644 0.141 1 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs4851009 2 103055644 0.105 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs17027179 2 103057159 0.033 0.62 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs17027179 2 103057159 0.173 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs10490203 2 103059237 0.033 0.62 HapMap 1000GP T 0.58 G 0.42 T/G JPT rs10490203 2 103059237 0.173 1 HapMap 1000GP T 0.58 G 0.42 T/G JPT rs1558650 2 103060024 0.113 1 HapMap 1000GP T 0.58 A 0.42 T/A CHB rs1558650 2 103060024 0.141 1 HapMap 1000GP T 0.58 A 0.42 T/A JPT rs4851583 2 103060300 0.173 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs4851584 2 103060313 0.084 0.752 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs4851584 2 103060313 0.105 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs11694360 2 103061147 0.173 1 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs11123928 2 103061286 0.173 1 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs7597017 2 103062116 0.173 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs6734736 2 103062880 0.103 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs6734736 2 103062880 0.12 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs6543137 2 103065908 0.084 0.752 HapMap 1000GP T 0.58 G 0.42 T/G JPT rs6543137 2 103065908 0.105 1 HapMap 1000GP T 0.58 G 0.42 T/G CHB rs7603250 2 103068834 0.084 0.752 HapMap 1000GP T 0.58 A 0.42 T/A JPT rs7603250 2 103068834 0.105 1 HapMap 1000GP T 0.58 A 0.42 T/A JPT rs2075185 2 103070988 0.105 1 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs2075185 2 103070988 0.141 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs4070554 2 103074493 0.105 1 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs4070554 2 103074493 0.141 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs6761825 2 103075561 0.105 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs6761825 2 103075561 0.141 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs6705001 2 103076210 0.141 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs6705001 2 103076210 0.105 1 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs6543141 2 103076351 0.141 1 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs6543141 2 103076351 0.105 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs4241210 2 103078740 0.141 1 HapMap 1000GP G 0.58 A 0.42 G/A JPT rs4241210 2 103078740 0.105 1 HapMap 1000GP G 0.58 A 0.42 G/A CHB rs6720564 2 103079297 0.141 1 HapMap 1000GP T 0.58 C 0.42 T/C JPT rs6720564 2 103079297 0.105 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs17027230 2 103079330 0.038 0.636 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs17027230 2 103079330 0.171 1 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs6717915 2 103079619 0.099 1 HapMap 1000GP A 0.58 C 0.42 A/C CHB rs6717915 2 103079619 0.137 1 HapMap 1000GP A 0.58 C 0.42 A/C CHB rs917996 2 103082273 0.141 1 HapMap 1000GP C 0.58 A 0.42 C/A JPT rs917996 2 103082273 0.105 1 HapMap 1000GP C 0.58 A 0.42 C/A CHB rs990171 2 103086770 0.141 1 HapMap 1000GP A 0.58 C 0.42 A/C JPT rs990171 2 103086770 0.105 1 HapMap 1000GP A 0.58 C 0.42 A/C JPT rs1474309 2 103091001 0.173 1 HapMap 1000GP C 0.58 T 0.42 C/T CHB rs1474309 2 103091001 0.033 0.62 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs17027258 2 103091540 0.178 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs1468791 2 103092021 0.105 1 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs1468791 2 103092021 0.141 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs7597819 2 103092906 0.105 1 HapMap 1000GP A 0.58 G 0.42 A/G CHB rs7597819 2 103092906 0.141 1 HapMap 1000GP A 0.58 G 0.42 A/G JPT rs10469840 2 103093243 0.105 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs10469840 2 103093243 0.144 1 HapMap 1000GP T 0.58 C 0.42 T/C CHB rs10193407 2 103139298 0.148 1 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs10193407 2 103139298 0.111 1 HapMap 1000GP C 0.58 T 0.42 C/T JPT rs4577297 2 102918018 0.092 1 HapMap 1000GP G 0.59 A 0.41 G/A CHB rs4577297 2 102918018 0.13 1 HapMap 1000GP G 0.59 A 0.41 G/A CHB rs953934 2 102932293 0.141 1 HapMap 1000GP C 0.59 T 0.41 C/T JPT rs953934 2 102932293 0.095 1 HapMap 1000GP C 0.59 T 0.41 C/T CHB rs1420103 2 102948632 0.135 1 HapMap 1000GP A 0.59 C 0.41 A/C JPT rs1420103 2 102948632 0.095 1 HapMap 1000GP A 0.59 C 0.41 A/C CHB rs3821204 2 102960281 0.091 1 HapMap 1000GP C 0.59 G 0.41 C/G JPT rs3821204 2 102960281 0.182 1 HapMap 1000GP C 0.59 G 0.41 C/G JPT rs12469506 2 102965871 0.182 1 HapMap 1000GP C 0.59 T 0.41 C/T CHB rs12469506 2 102965871 0.091 1 HapMap 1000GP C 0.59 T 0.41 C/T CHB rs11693955 2 103029165 0.033 0.62 HapMap 1000GP A 0.59 T 0.41 A/T JPT rs11693955 2 103029165 0.173 1 HapMap 1000GP A 0.59 T 0.41 A/T CHB rs887972 2 103040945 0.033 0.62 HapMap 1000GP G 0.59 A 0.41 G/A JPT rs887972 2 103040945 0.173 1 HapMap 1000GP G 0.59 A 0.41 G/A CHB rs873022 2 102955683 0.083 1 HapMap 1000GP G 0.6 T 0.4 G/T JPT rs873022 2 102955683 0.182 1 HapMap 1000GP G 0.6 T 0.4 G/T JPT rs3771177 2 102955860 0.182 1 HapMap 1000GP G 0.6 T 0.4 G/T CHB rs3771177 2 102955860 0.083 1 HapMap 1000GP G 0.6 T 0.4 G/T CHB rs3732129 2 102957532 0.083 1 HapMap 1000GP T 0.6 C 0.4 T/C JPT rs3732129 2 102957532 0.182 1 HapMap 1000GP T 0.6 C 0.4 T/C CHB rs3771172 2 102985812 0.091 1 HapMap 1000GP C 0.6 T 0.4 C/T JPT rs3771172 2 102985812 0.165 1 HapMap 1000GP C 0.6 T 0.4 C/T CHB rs3771171 2 102985950 0.084 1 HapMap 1000GP T 0.6 C 0.4 T/C JPT rs3771171 2 102985950 0.165 1 HapMap 1000GP T 0.6 C 0.4 T/C CHB rs2160202 2 102986154 0.084 1 HapMap 1000GP G 0.6 A 0.4 G/A JPT rs2160202 2 102986154 0.169 1 HapMap 1000GP G 0.6 A 0.4 G/A CHB rs7566063 2 103112565 0.132 0.677 HapMap 1000GP C 0.6 A 0.4 C/A JPT rs7566063 2 103112565 0.102 0.604 HapMap 1000GP C 0.6 A 0.4 C/A JPT rs7591878 2 103112658 0.151 0.764 HapMap 1000GP G 0.6 A 0.4 G/A CHB rs7591878 2 103112658 0.12 0.654 HapMap 1000GP G 0.6 A 0.4 G/A JPT rs6543154 2 103114334 0.102 0.604 HapMap 1000GP T 0.6 C 0.4 T/C CHB rs6543154 2 103114334 0.132 0.677 HapMap 1000GP T 0.6 C 0.4 T/C JPT rs6543155 2 103114895 0.123 0.737 HapMap 1000GP G 0.6 A 0.4 G/A CHB rs6543155 2 103114895 0.139 0.68 HapMap 1000GP G 0.6 A 0.4 G/A JPT rs11123934 2 103115568 0.102 0.604 HapMap 1000GP G 0.6 A 0.4 G/A CHB rs11123934 2 103115568 0.132 0.677 HapMap 1000GP G 0.6 A 0.4 G/A CHB rs1030026 2 103098178 0.142 0.667 HapMap 1000GP A 0.62 C 0.38 A/C CHB rs2140316 2 103098676 0.142 0.667 HapMap 1000GP T 0.62 A 0.38 T/A CHB rs12468355 2 102861250 0.222 0.835 HapMap 1000GP T 0.66 G 0.34 T/G JPT rs12468355 2 102861250 0.144 0.665 HapMap 1000GP T 0.66 G 0.34 T/G JPT rs1558626 2 102862070 0.144 0.665 HapMap 1000GP T 0.66 A 0.34 T/A CHB rs1558626 2 102862070 0.211 0.836 HapMap 1000GP T 0.66 A 0.34 T/A CHB rs1558624 2 102862233 0.211 0.836 HapMap 1000GP A 0.66 G 0.34 A/G JPT rs1558624 2 102862233 0.144 0.665 HapMap 1000GP A 0.66 G 0.34 A/G CHB rs1558623 2 102862402 0.211 0.836 HapMap 1000GP T 0.66 A 0.34 T/A JPT rs1558623 2 102862402 0.144 0.665 HapMap 1000GP T 0.66 A 0.34 T/A JPT rs17689452 2 102864681 0.144 0.665 HapMap 1000GP A 0.66 G 0.34 A/G CHB rs17689452 2 102864681 0.211 0.836 HapMap 1000GP A 0.66 G 0.34 A/G CHB rs10186746 2 102866377 0.211 0.836 HapMap 1000GP G 0.66 A 0.34 G/A JPT rs10186746 2 102866377 0.144 0.665 HapMap 1000GP G 0.66 A 0.34 G/A JPT rs7572871 2 102853838 0.049 1 HapMap 1000GP G 0.7 A 0.3 G/A JPT rs12712153 2 103111761 0.09 1 HapMap 1000GP C 0.71 T 0.29 C/T JPT rs11687071 2 103111920 0.09 1 HapMap 1000GP G 0.71 A 0.29 G/A JPT rs6543153 2 103114203 0.032 0.607 HapMap 1000GP T 0.71 C 0.29 T/C JPT rs7573566 2 103115205 0.09 1 HapMap 1000GP T 0.71 C 0.29 T/C JPT rs12987295 2 103115838 0.09 1 HapMap 1000GP G 0.71 A 0.29 G/A JPT rs12995030 2 103116466 0.09 1 HapMap 1000GP C 0.71 G 0.29 C/G JPT rs6728288 2 103117268 0.09 1 HapMap 1000GP A 0.71 T 0.29 A/T JPT rs2075192 2 103118228 0.09 1 HapMap 1000GP A 0.71 G 0.29 A/G JPT rs2075191 2 103118299 0.09 1 HapMap 1000GP G 0.71 T 0.29 G/T JPT rs2075190 2 103118559 0.09 1 HapMap 1000GP A 0.71 T 0.29 A/T JPT rs2075189 2 103118689 0.09 1 HapMap 1000GP C 0.71 G 0.29 C/G JPT rs11690932 2 103119029 0.09 1 HapMap 1000GP G 0.71 A 0.29 G/A JPT rs4851605 2 103120868 0.09 1 HapMap 1000GP A 0.71 G 0.29 A/G JPT rs4851606 2 103120889 0.09 1 HapMap 1000GP G 0.71 A 0.29 G/A JPT rs7600901 2 102915571 0.053 1 HapMap 1000GP A 0.73 G 0.27 A/G JPT rs7605606 2 103121536 0.08 1 HapMap 1000GP G 0.73 A 0.27 G/A CHB rs3755292 2 102769137 0.057 1 HapMap 1000GP T 0.74 G 0.26 T/G CHB rs871656 2 102771282 0.057 1 HapMap 1000GP T 0.75 A 0.25 T/A CHB rs2287048 2 102773999 0.066 1 HapMap 1000GP C 0.75 T 0.25 C/T CHB rs1468789 2 103092503 0.045 1 HapMap 1000GP C 0.76 T 0.24 C/T CHB rs1882510 2 102883618 0.052 1 HapMap 1000GP C 0.77 T 0.23 C/T JPT rs3755294 2 102768376 0.058 1 HapMap 1000GP G 0.82 A 0.18 G/A CHB rs12465829 2 103072320 0.034 1 HapMap 1000GP T 0.82 C 0.18 T/C JPT rs12465829 2 103072320 0.058 1 HapMap 1000GP T 0.82 C 0.18 T/C CHB rs10200410 2 102870871 0.396 0.776 HapMap 1000GP G 0.83 A 0.17 G/A CHB rs1345301 2 102875587 0.396 0.776 HapMap 1000GP A 0.83 G 0.17 A/G CHB rs2310243 2 102877560 0.396 0.776 HapMap 1000GP A 0.83 G 0.17 A/G CHB rs13405355 2 102878206 0.396 0.776 HapMap 1000GP C 0.83 T 0.17 C/T JPT rs17026901 2 102890386 0.03 0.826 HapMap 1000GP T 0.83 C 0.17 T/C JPT rs10206291 2 103038863 0.85 1 HapMap 1000GP T 0.83 C 0.17 T/C CHB rs10206291 2 103038863 0.564 0.892 HapMap 1000GP T 0.83 C 0.17 T/C CHB rs10208196 2 102996345 0.564 0.892 HapMap 1000GP G 0.84 A 0.16 G/A JPT rs10208196 2 102996345 0.849 1 HapMap 1000GP G 0.84 A 0.16 G/A CHB rs3213732 2 102998279 0.564 0.892 HapMap 1000GP A 0.84 G 0.16 A/G JPT rs3213732 2 102998279 0.85 1 HapMap 1000GP A 0.84 G 0.16 A/G JPT rs6760621 2 102999952 0.84 1 HapMap 1000GP T 0.84 C 0.16 T/C CHB rs6760621 2 102999952 0.558 0.889 HapMap 1000GP T 0.84 C 0.16 T/C JPT rs6706002 2 103006104 0.85 1 HapMap 1000GP A 0.84 G 0.16 A/G CHB rs6706002 2 103006104 0.564 0.892 HapMap 1000GP A 0.84 G 0.16 A/G CHB rs4851571 2 103019000 0.564 0.892 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs4851571 2 103019000 0.85 1 HapMap 1000GP C 0.84 T 0.16 C/T CHB rs4851572 2 103019031 0.564 0.892 HapMap 1000GP G 0.84 A 0.16 G/A JPT rs4851572 2 103019031 0.85 1 HapMap 1000GP G 0.84 A 0.16 G/A CHB rs2110662 2 103020139 0.564 0.892 HapMap 1000GP A 0.84 T 0.16 A/T JPT rs2110662 2 103020139 0.85 1 HapMap 1000GP A 0.84 T 0.16 A/T CHB rs7594402 2 103021267 0.564 0.892 HapMap 1000GP A 0.84 T 0.16 A/T JPT rs7594402 2 103021267 0.85 1 HapMap 1000GP A 0.84 T 0.16 A/T JPT rs6710034 2 103023678 0.85 1 HapMap 1000GP G 0.84 A 0.16 G/A CHB rs6710034 2 103023678 0.564 0.892 HapMap 1000GP G 0.84 A 0.16 G/A CHB rs7589142 2 103024660 0.736 0.899 HapMap 1000GP T 0.84 C 0.16 T/C JPT rs7589142 2 103024660 1 1 HapMap 1000GP T 0.84 C 0.16 T/C CHB rs10203558 2 103027640 0.562 0.891 HapMap 1000GP T 0.84 C 0.16 T/C JPT rs10203558 2 103027640 0.841 1 HapMap 1000GP T 0.84 C 0.16 T/C JPT rs4851576 2 103028895 0.85 1 HapMap 1000GP C 0.84 T 0.16 C/T CHB rs4851576 2 103028895 0.564 0.892 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs4851577 2 103028921 0.85 1 HapMap 1000GP T 0.84 C 0.16 T/C CHB rs4851577 2 103028921 0.564 0.892 HapMap 1000GP T 0.84 C 0.16 T/C CHB rs4851579 2 103028984 0.564 0.892 HapMap 1000GP G 0.84 A 0.16 G/A JPT rs4851579 2 103028984 0.85 1 HapMap 1000GP G 0.84 A 0.16 G/A JPT rs1592458 2 103031749 0.85 1 HapMap 1000GP A 0.84 T 0.16 A/T CHB rs1592458 2 103031749 0.564 0.892 HapMap 1000GP A 0.84 T 0.16 A/T JPT rs2160201 2 103033961 0.822 1 HapMap 1000GP T 0.84 C 0.16 T/C CHB rs2160201 2 103033961 0.778 1 HapMap 1000GP T 0.84 C 0.16 T/C JPT rs2293224 2 103035779 0.85 1 HapMap 1000GP T 0.84 C 0.16 T/C CHB rs2293224 2 103035779 0.564 0.892 HapMap 1000GP T 0.84 C 0.16 T/C CHB rs1420100 2 103037002 0.564 0.892 HapMap 1000GP C 0.84 A 0.16 C/A JPT rs1420100 2 103037002 0.85 1 HapMap 1000GP C 0.84 A 0.16 C/A JPT rs3771155 2 103037826 0.85 1 HapMap 1000GP A 0.84 G 0.16 A/G CHB rs3771155 2 103037826 0.564 0.892 HapMap 1000GP A 0.84 G 0.16 A/G CHB rs3771154 2 103039360 0.564 0.892 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs3771154 2 103039360 0.85 1 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs6759479 2 103040047 0.85 1 HapMap 1000GP A 0.84 C 0.16 A/C CHB rs6759479 2 103040047 0.564 0.892 HapMap 1000GP A 0.84 C 0.16 A/C JPT rs6543133 2 103040177 0.179 0.628 HapMap 1000GP A 0.84 T 0.16 A/T CHB rs7559845 2 103046214 0.564 0.892 HapMap 1000GP T 0.84 G 0.16 T/G JPT rs7559845 2 103046214 0.85 1 HapMap 1000GP T 0.84 G 0.16 T/G CHB rs3755265 2 103052816 0.564 0.892 HapMap 1000GP C 0.84 A 0.16 C/A JPT rs3755265 2 103052816 0.85 1 HapMap 1000GP C 0.84 A 0.16 C/A JPT rs4479442 2 103054074 0.833 1 HapMap 1000GP A 0.84 T 0.16 A/T CHB rs4479442 2 103054074 0.541 0.883 HapMap 1000GP A 0.84 T 0.16 A/T CHB rs13021177 2 103056493 0.564 0.892 HapMap 1000GP A 0.84 G 0.16 A/G JPT rs13021177 2 103056493 0.85 1 HapMap 1000GP A 0.84 G 0.16 A/G JPT rs3771202 2 102772669 0.034 1 HapMap 1000GP C 0.85 G 0.15 C/G JPT rs2080312 2 102774810 0.03 1 HapMap 1000GP A 0.85 G 0.15 A/G JPT rs3917245 2 102775155 0.027 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs3917246 2 102775164 0.027 1 HapMap 1000GP T 0.85 C 0.15 T/C CHB rs1041973 2 102955468 0.52 0.79 HapMap 1000GP C 0.85 A 0.15 C/A CHB rs10208293 2 102966310 1 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs10208293 2 102966310 1 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs13424006 2 102967236 1 1 HapMap 1000GP T 0.85 C 0.15 T/C CHB rs13424006 2 102967236 1 1 HapMap 1000GP T 0.85 C 0.15 T/C JPT rs6751967 2 102967413 1 1 HapMap 1000GP T 0.85 C 0.15 T/C CHB rs6751967 2 102967413 1 1 HapMap 1000GP T 0.85 C 0.15 T/C CHB rs6749114 2 102967587 1 1 HapMap 1000GP A 0.85 C 0.15 A/C JPT rs6749114 2 102967587 1 1 HapMap 1000GP A 0.85 C 0.15 A/C CHB rs10170583 2 102974764 1 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs10170583 2 102974764 1 1 HapMap 1000GP G 0.85 A 0.15 G/A CHB rs10176664 2 102976172 1 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs10176664 2 102976172 1 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs1974675 2 102986375 1 1 HapMap 1000GP G 0.85 A 0.15 G/A CHB rs1974675 2 102986375 1 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs17027352 2 103138836 0.442 0.766 HapMap 1000GP C 0.85 T 0.15 C/T CHB rs17027352 2 103138836 0.385 0.68 HapMap 1000GP C 0.85 T 0.15 C/T CHB rs7576682 2 103143312 0.375 0.66 HapMap 1000GP G 0.86 A 0.14 G/A JPT rs7576682 2 103143312 0.299 0.757 HapMap 1000GP G 0.86 A 0.14 G/A CHB rs3849363 2 103143548 0.385 0.68 HapMap 1000GP T 0.86 G 0.14 T/G JPT rs3849363 2 103143548 0.442 0.766 HapMap 1000GP T 0.86 G 0.14 T/G CHB rs13388541 2 103147818 0.388 0.655 HapMap 1000GP T 0.86 C 0.14 T/C JPT rs13388541 2 103147818 0.437 0.763 HapMap 1000GP T 0.86 C 0.14 T/C CHB rs10183491 2 103151587 0.385 0.68 HapMap 1000GP T 0.86 G 0.14 T/G JPT rs10183491 2 103151587 0.442 0.766 HapMap 1000GP T 0.86 G 0.14 T/G JPT rs17027415 2 103154594 0.442 0.766 HapMap 1000GP C 0.86 A 0.14 C/A CHB rs17027415 2 103154594 0.385 0.68 HapMap 1000GP C 0.86 A 0.14 C/A JPT rs13027294 2 102860074 0.595 1 HapMap 1000GP G 0.87 C 0.13 G/C CHB rs13027294 2 102860074 0.547 1 HapMap 1000GP G 0.87 C 0.13 G/C CHB rs11677452 2 102865236 0.627 0.879 HapMap 1000GP A 0.87 T 0.13 A/T JPT rs11677452 2 102865236 0.457 0.707 HapMap 1000GP A 0.87 T 0.13 A/T CHB rs9646944 2 102865875 0.627 0.879 HapMap 1000GP G 0.87 C 0.13 G/C JPT rs9646944 2 102865875 0.457 0.707 HapMap 1000GP G 0.87 C 0.13 G/C CHB rs13418548 2 102917239 0.223 1 HapMap 1000GP C 0.88 T 0.12 C/T JPT rs13418548 2 102917239 0.329 1 HapMap 1000GP C 0.88 T 0.12 C/T CHB rs950881 2 102932512 0.369 1 HapMap 1000GP G 0.88 T 0.12 G/T JPT rs950881 2 102932512 0.574 1 HapMap 1000GP G 0.88 T 0.12 G/T CHB rs13408569 2 102955056 0.632 1 HapMap 1000GP G 0.88 C 0.12 G/C JPT rs13408569 2 102955056 0.753 1 HapMap 1000GP G 0.88 C 0.12 G/C CHB rs13408661 2 102955082 0.632 1 HapMap 1000GP G 0.88 A 0.12 G/A JPT rs13408661 2 102955082 0.753 1 HapMap 1000GP G 0.88 A 0.12 G/A JPT rs10173081 2 102957348 0.753 1 HapMap 1000GP C 0.88 T 0.12 C/T CHB rs10173081 2 102957348 0.632 1 HapMap 1000GP C 0.88 T 0.12 C/T CHB rs17027029 2 102990648 0.632 1 HapMap 1000GP G 0.88 C 0.12 G/C JPT rs17027029 2 102990648 0.753 1 HapMap 1000GP G 0.88 C 0.12 G/C JPT rs3771164 2 102991786 0.753 1 HapMap 1000GP A 0.88 T 0.12 A/T CHB rs3771164 2 102991786 0.632 1 HapMap 1000GP A 0.88 T 0.12 A/T JPT rs3732127 2 103013750 0.753 1 HapMap 1000GP G 0.88 C 0.12 G/C CHB rs3732127 2 103013750 0.632 1 HapMap 1000GP G 0.88 C 0.12 G/C JPT rs12991737 2 103018128 0.752 1 HapMap 1000GP T 0.88 A 0.12 T/A CHB rs12991737 2 103018128 0.754 1 HapMap 1000GP T 0.88 A 0.12 T/A CHB rs10181785 2 103025274 0.632 1 HapMap 1000GP C 0.88 T 0.12 C/T JPT rs10181785 2 103025274 0.753 1 HapMap 1000GP C 0.88 T 0.12 C/T CHB rs12712148 2 103025547 0.632 1 HapMap 1000GP G 0.88 A 0.12 G/A JPT rs12712148 2 103025547 0.676 1 HapMap 1000GP G 0.88 A 0.12 G/A CHB rs7586983 2 103028066 0.632 1 HapMap 1000GP C 0.88 T 0.12 C/T JPT rs7586983 2 103028066 0.753 1 HapMap 1000GP C 0.88 T 0.12 C/T CHB rs2272127 2 103039873 0.632 1 HapMap 1000GP C 0.88 G 0.12 C/G JPT rs2272127 2 103039873 0.718 1 HapMap 1000GP C 0.88 G 0.12 C/G CHB rs10166330 2 103050390 0.632 1 HapMap 1000GP C 0.89 T 0.11 C/T JPT rs10166330 2 103050390 0.753 1 HapMap 1000GP C 0.89 T 0.11 C/T CHB rs11465736 2 103067930 0.462 1 HapMap 1000GP C 0.89 T 0.11 C/T JPT rs11465736 2 103067930 0.752 1 HapMap 1000GP C 0.89 T 0.11 C/T JPT rs10169676 2 103074919 0.753 1 HapMap 1000GP G 0.89 A 0.11 G/A CHB rs10169676 2 103074919 0.632 1 HapMap 1000GP G 0.89 A 0.11 G/A JPT rs17027246 2 103080055 0.753 1 HapMap 1000GP C 0.89 G 0.11 C/G CHB rs17027246 2 103080055 0.603 1 HapMap 1000GP C 0.89 G 0.11 C/G CHB rs741284 2 103083324 0.632 1 HapMap 1000GP G 0.89 C 0.11 G/C JPT rs741284 2 103083324 0.753 1 HapMap 1000GP G 0.89 C 0.11 G/C JPT rs10172116 2 103087573 0.753 1 HapMap 1000GP C 0.89 T 0.11 C/T CHB rs10172116 2 103087573 0.632 1 HapMap 1000GP C 0.89 T 0.11 C/T CHB rs13030642 2 103091585 0.632 1 HapMap 1000GP C 0.89 A 0.11 C/A JPT rs13030642 2 103091585 0.753 1 HapMap 1000GP C 0.89 A 0.11 C/A JPT rs11892768 2 103096936 0.6 1 HapMap 1000GP C 0.89 T 0.11 C/T CHB rs11892768 2 103096936 0.546 1 HapMap 1000GP C 0.89 T 0.11 C/T CHB rs7579846 2 103112585 0.546 1 HapMap 1000GP A 0.89 C 0.11 A/C JPT rs7579846 2 103112585 0.6 1 HapMap 1000GP A 0.89 C 0.11 A/C JPT rs10208027 2 103121372 0.455 1 HapMap 1000GP G 0.89 T 0.11 G/T CHB rs10208027 2 103121372 0.546 1 HapMap 1000GP G 0.89 T 0.11 G/T JPT rs10185897 2 102966790 0.455 1 HapMap 1000GP C 0.9 A 0.1 C/A CHB rs10185897 2 102966790 0.223 1 HapMap 1000GP C 0.9 A 0.1 C/A JPT rs10196556 2 103075079 0.753 1 HapMap 1000GP C 0.9 T 0.1 C/T CHB rs10196556 2 103075079 0.462 1 HapMap 1000GP C 0.9 T 0.1 C/T JPT rs2302622 2 102836521 0.005 0.684 HapMap 1000GP G 0.91 C 0.09 G/C CHB rs2302622 2 102836521 0.009 0.658 HapMap 1000GP G 0.91 C 0.09 G/C JPT rs17820338 2 102809182 0.005 1 HapMap 1000GP G 0.95 C 0.05 G/C CHB rs17820338 2 102809182 0.012 1 HapMap 1000GP G 0.95 C 0.05 G/C CHB rs1558648 2 102810168 0.014 1 HapMap 1000GP T 0.95 G 0.05 T/G JPT rs1558648 2 102810168 0.005 1 HapMap 1000GP T 0.95 G 0.05 T/G JPT rs17769234 2 102811716 0.005 1 HapMap 1000GP T 0.95 C 0.05 T/C CHB rs17769234 2 102811716 0.011 1 HapMap 1000GP T 0.95 C 0.05 T/C JPT rs17026757 2 102813912 0.002 1 HapMap 1000GP A 0.95 C 0.05 A/C CHB rs17026757 2 102813912 0.011 1 HapMap 1000GP A 0.95 C 0.05 A/C CHB rs12996377 2 102830478 0.014 1 HapMap 1000GP T 0.95 A 0.05 T/A JPT rs12996377 2 102830478 0.005 1 HapMap 1000GP T 0.95 A 0.05 T/A CHB rs7582378 2 103162263 0.147 1 HapMap 1000GP C 0.95 A 0.05 C/A CHB rs3917306 2 102788839 0.006 0.749 HapMap 1000GP A 0.96 G 0.04 A/G JPT rs6728945 2 102986471 0.07 1 HapMap 1000GP T 0.96 C 0.04 T/C CHB rs6728945 2 102986471 0.202 1 HapMap 1000GP T 0.96 C 0.04 T/C CHB rs3917322 2 102793246 0.008 1 HapMap 1000GP A 0.97 G 0.03 A/G CHB rs3917326 2 102794326 0.008 1 HapMap 1000GP C 0.97 T 0.03 C/T JPT rs1882511 2 102883721 0.01 1 HapMap 1000GP G 0.97 A 0.03 G/A JPT rs10200945 2 102884757 0.01 1 HapMap 1000GP A 0.97 T 0.03 A/T JPT rs1922288 2 102888565 0.01 1 HapMap 1000GP T 0.97 C 0.03 T/C JPT rs9308855 2 102890795 0.01 1 HapMap 1000GP A 0.97 G 0.03 A/G JPT rs1115281 2 102891107 0.01 1 HapMap 1000GP C 0.97 G 0.03 C/G JPT rs10179570 2 102891632 0.01 1 HapMap 1000GP T 0.97 C 0.03 T/C CHB rs17026916 2 102900381 0.006 1 HapMap 1000GP A 0.97 T 0.03 A/T CHB rs985523 2 102954376 0.301 1 HapMap 1000GP G 0.97 A 0.03 G/A JPT rs985523 2 102954376 0.185 1 HapMap 1000GP G 0.97 A 0.03 G/A CHB rs6719130 2 102958236 0.301 1 HapMap 1000GP C 0.97 T 0.03 C/T JPT rs6719130 2 102958236 0.185 1 HapMap 1000GP C 0.97 T 0.03 C/T CHB rs3771167 2 102986188 0.274 1 HapMap 1000GP A 0.97 G 0.03 A/G JPT rs3771167 2 102986188 0.133 1 HapMap 1000GP A 0.97 G 0.03 A/G JPT rs11465623 2 102993039 0.005 1 HapMap 1000GP G 0.97 T 0.03 G/T JPT rs11465673 2 103035375 0.005 1 HapMap 1000GP T 0.97 C 0.03 T/C JPT rs11465689 2 103040167 0.005 1 HapMap 1000GP C 0.97 A 0.03 C/A JPT rs11465711 2 103060092 0.005 1 HapMap 1000GP T 0.97 C 0.03 T/C JPT rs17821875 2 103071030 0.005 1 HapMap 1000GP A 0.97 G 0.03 A/G JPT rs6753066 2 103095946 0.005 1 HapMap 1000GP G 0.97 C 0.03 G/C JPT rs6756536 2 103096400 0.005 1 HapMap 1000GP G 0.97 T 0.03 G/T JPT rs6543145 2 103096436 0.005 1 HapMap 1000GP C 0.97 A 0.03 C/A JPT rs7582118 2 103096999 0.005 1 HapMap 1000GP C 0.97 T 0.03 C/T JPT rs7607856 2 103097036 0.005 1 HapMap 1000GP G 0.97 A 0.03 G/A JPT rs6747752 2 103097679 0.005 1 HapMap 1000GP A 0.97 C 0.03 A/C JPT rs6751282 2 103098207 0.005 1 HapMap 1000GP A 0.97 G 0.03 A/G JPT rs6736822 2 103098403 0.005 1 HapMap 1000GP C 0.97 T 0.03 C/T JPT rs6741464 2 103099887 0.005 1 HapMap 1000GP C 0.97 T 0.03 C/T CHB rs6543147 2 103099945 0.009 1 HapMap 1000GP G 0.97 A 0.03 G/A JPT rs6543147 2 103099945 0.005 1 HapMap 1000GP G 0.97 A 0.03 G/A JPT rs2080316 2 103104229 0.005 1 HapMap 1000GP A 0.97 G 0.03 A/G JPT rs7558013 2 102992806 0.221 1 HapMap 1000GP G 0.98 T 0.02 G/T CHB rs7558013 2 102992806 0.222 1 HapMap 1000GP G 0.98 T 0.02 G/T JPT rs11465698 2 103054577 0.185 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs11465698 2 103054577 0.223 1 HapMap 1000GP T 0.98 C 0.02 T/C JPT rs6543135 2 103062406 0.185 1 HapMap 1000GP C 0.98 T 0.02 C/T CHB rs6543135 2 103062406 0.223 1 HapMap 1000GP C 0.98 T 0.02 C/T CHB rs1880000 2 103099953 0.147 1 HapMap 1000GP T 0.98 C 0.02 T/C JPT rs1880000 2 103099953 0.122 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs6749440 2 103101846 0.147 1 HapMap 1000GP C 0.98 T 0.02 C/T JPT rs6749440 2 103101846 0.122 1 HapMap 1000GP C 0.98 T 0.02 C/T JPT rs1403549 2 103110745 0.122 1 HapMap 1000GP G 0.98 C 0.02 G/C CHB rs1403549 2 103110745 0.147 1 HapMap 1000GP G 0.98 C 0.02 G/C JPT rs17027327 2 103122513 0.122 1 HapMap 1000GP C 0.98 A 0.02 C/A CHB rs17027327 2 103122513 0.147 1 HapMap 1000GP C 0.98 A 0.02 C/A CHB rs7587856 2 103144305 0.147 1 HapMap 1000GP C 0.98 A 0.02 C/A CHB rs9677607 2 103149520 0.147 1 HapMap 1000GP A 0.98 T 0.02 A/T CHB rs7593444 2 103158561 0.147 1 HapMap 1000GP G 0.98 A 0.02 G/A CHB rs17027421 2 103159882 0.146 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs17027428 2 103163175 0.147 1 HapMap 1000GP G 0.98 A 0.02 G/A JPT rs17027428 2 103163175 0.122 1 HapMap 1000GP G 0.98 A 0.02 G/A CHB rs17027430 2 103163237 0.147 1 HapMap 1000GP T 0.98 C 0.02 T/C JPT rs17027430 2 103163237 0.122 1 HapMap 1000GP T 0.98 C 0.02 T/C JPT rs1523197 2 103163732 0.122 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs1523197 2 103163732 0.147 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs2310294 2 103165706 0.147 1 HapMap 1000GP A 0.98 G 0.02 A/G JPT rs2310294 2 103165706 0.122 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs1989399 2 103166742 0.147 1 HapMap 1000GP G 0.98 A 0.02 G/A JPT rs1989399 2 103166742 0.122 1 HapMap 1000GP G 0.98 A 0.02 G/A CHB rs723292 2 103166804 0.147 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs3917256 2 102776855 0.002 1 HapMap 1000GP C 0.99 T 0.01 C/T CHB rs3917281 2 102780653 0.002 1 HapMap 1000GP G 0.99 T 0.01 G/T CHB rs11895033 2 102799751 0.072 1 HapMap 1000GP T 0.99 C 0.01 T/C CHB rs4851550 2 102800046 0.002 1 HapMap 1000GP A 0.99 G 0.01 A/G JPT rs11904409 2 102803184 0.003 1 HapMap 1000GP G 0.99 A 0.01 G/A JPT rs12619169 2 103011084 0.002 1 HapMap 1000GP G 0.99 A 0.01 G/A CHB rs12619169 2 103011084 0.002 1 HapMap 1000GP G 0.99 A 0.01 G/A CHB rs952437 2 102897159 0.073 1 HapMap 1000GP C 0.9965 T 0.0035 C/T CHB rs17639215 2 102953444 0.073 1 HapMap 1000GP G 0.9983 A 0.0017 G/A CHB rs11465596 2 102987093 0.072 1 HapMap 1000GP C 0.9983 A 0.0017 C/A JPT rs7606834 2 102811400 0.066 1 HapMap 1000GP A 1 T 0 A/T JPT rs952438 2 102897385 0.06 1 HapMap 1000GP G 1 A 0 G/A CEU rs17026762 2 102814372 0.017 1 HapMap 1000GP A NA G — A/G CEU rs1861245 2 102966906 1 1 HapMap 1000GP A NA G — A/G CEU rs7559566 2 103028041 0.761 1 HapMap 1000GP G NA T — G/T CEU rs10208196 2 102996345 0.754 1 HapMap 1000GP G 0.54 A 0.46 G/A CEU rs3213732 2 102998279 0.759 1 HapMap 1000GP A 0.54 G 0.46 A/G CEU rs6760621 2 102999952 0.74 1 HapMap 1000GP T 0.54 C 0.46 T/C CEU rs6706002 2 103006104 0.759 1 HapMap 1000GP A 0.54 G 0.46 A/G CEU rs4851571 2 103019000 0.759 1 HapMap 1000GP C 0.54 T 0.46 C/T CEU rs4851572 2 103019031 0.759 1 HapMap 1000GP G 0.54 A 0.46 G/A CEU rs2110662 2 103020139 0.759 1 HapMap 1000GP A 0.54 T 0.46 A/T CEU rs7594402 2 103021267 0.759 1 HapMap 1000GP A 0.54 T 0.46 A/T CEU rs6710034 2 103023678 0.759 1 HapMap 1000GP G 0.54 A 0.46 G/A CEU rs10203558 2 103027640 0.754 1 HapMap 1000GP T 0.54 C 0.46 T/C CEU rs10200952 2 103027651 0.722 1 HapMap 1000GP A 0.54 C 0.46 A/C CEU rs4851576 2 103028895 0.759 1 HapMap 1000GP C 0.54 T 0.46 C/T CEU rs4851577 2 103028921 0.759 1 HapMap 1000GP T 0.54 C 0.46 T/C CEU rs4851579 2 103028984 0.759 1 HapMap 1000GP G 0.54 A 0.46 G/A CEU rs1592458 2 103031749 0.759 1 HapMap 1000GP A 0.54 T 0.46 A/T CEU rs2293224 2 103035779 0.759 1 HapMap 1000GP T 0.54 C 0.46 T/C CEU rs1420100 2 103037002 0.759 1 HapMap 1000GP C 0.54 A 0.46 C/A CEU rs3771155 2 103037826 0.754 1 HapMap 1000GP A 0.54 G 0.46 A/G CEU rs10206291 2 103038863 0.759 1 HapMap 1000GP T 0.54 C 0.46 T/C CEU rs3771154 2 103039360 0.759 1 HapMap 1000GP C 0.54 T 0.46 C/T CEU rs6759479 2 103040047 0.759 1 HapMap 1000GP A 0.54 C 0.46 A/C CEU rs7559845 2 103046214 0.759 1 HapMap 1000GP T 0.54 G 0.46 T/G CEU rs3755265 2 103052816 0.754 1 HapMap 1000GP C 0.54 A 0.46 C/A CEU rs4479442 2 103054074 0.759 1 HapMap 1000GP A 0.54 T 0.46 A/T CEU rs13021177 2 103056493 0.759 1 HapMap 1000GP A 0.54 G 0.46 A/G CEU rs10200410 2 102870871 0.573 0.788 HapMap 1000GP G 0.55 A 0.45 G/A CEU rs1345301 2 102875587 0.573 0.788 HapMap 1000GP A 0.55 G 0.45 A/G CEU rs2310243 2 102877560 0.573 0.788 HapMap 1000GP A 0.55 G 0.45 A/G CEU rs13405355 2 102878206 0.573 0.788 HapMap 1000GP C 0.55 T 0.45 C/T CEU rs13424006 2 102967236 1 1 HapMap 1000GP T 0.59 C 0.41 T/C CEU rs6751967 2 102967413 1 1 HapMap 1000GP T 0.59 C 0.41 T/C CEU rs6749114 2 102967587 1 1 HapMap 1000GP A 0.59 C 0.41 A/C CEU rs10170583 2 102974764 1 1 HapMap 1000GP G 0.59 A 0.41 G/A CEU rs10176664 2 102976172 1 1 HapMap 1000GP G 0.59 A 0.41 G/A CEU rs1974675 2 102986375 0.954 1 HapMap 1000GP G 0.59 A 0.41 G/A CEU rs6543119 2 102963072 0.414 1 HapMap 1000GP A 0.62 T 0.38 A/T CEU rs13017455 2 102964742 0.414 1 HapMap 1000GP C 0.62 T 0.38 C/T CEU rs12468355 2 102861250 0.238 0.611 HapMap 1000GP T 0.63 G 0.37 T/G CEU rs1558626 2 102862070 0.345 0.774 HapMap 1000GP T 0.63 A 0.37 T/A CEU rs1558623 2 102862402 0.345 0.774 HapMap 1000GP T 0.63 A 0.37 T/A CEU rs17689452 2 102864681 0.345 0.774 HapMap 1000GP A 0.63 G 0.37 A/G CEU rs1035126 2 103019981 0.337 0.656 HapMap 1000GP C 0.63 T 0.37 C/T CEU rs2080288 2 103022166 0.337 0.656 HapMap 1000GP G 0.63 A 0.37 G/A CEU rs4851578 2 103028951 0.341 0.649 HapMap 1000GP T 0.63 G 0.37 T/G CEU rs7602207 2 103032366 0.359 0.653 HapMap 1000GP C 0.63 G 0.37 C/G CEU rs6543144 2 103092575 0.337 0.656 HapMap 1000GP A 0.63 G 0.37 A/G CEU rs10186746 2 102866377 0.437 0.882 HapMap 1000GP G 0.64 A 0.36 G/A CEU rs11465700 2 103057668 0.337 0.656 HapMap 1000GP G 0.64 A 0.36 G/A CEU rs10169192 2 103072211 0.337 0.656 HapMap 1000GP A 0.64 G 0.36 A/G CEU rs2310301 2 103072935 0.337 0.656 HapMap 1000GP C 0.64 T 0.36 C/T CEU rs6543140 2 103074274 0.337 0.656 HapMap 1000GP G 0.64 T 0.36 G/T CEU rs13390895 2 103075499 0.337 0.656 HapMap 1000GP G 0.64 A 0.36 G/A CEU rs4851591 2 103077423 0.337 0.656 HapMap 1000GP T 0.64 C 0.36 T/C CEU rs7561351 2 103077780 0.337 0.656 HapMap 1000GP A 0.64 G 0.36 A/G CEU rs13393175 2 103078849 0.337 0.656 HapMap 1000GP T 0.64 G 0.36 T/G CEU rs6734203 2 103080066 0.301 0.626 HapMap 1000GP G 0.64 C 0.36 G/C CEU rs6543142 2 103082006 0.36 0.705 HapMap 1000GP T 0.64 C 0.36 T/C CEU rs10200945 2 102884757 0.245 0.637 HapMap 1000GP A 0.65 T 0.35 A/T CEU rs1115281 2 102891107 0.245 0.637 HapMap 1000GP C 0.65 G 0.35 C/G CEU rs950880 2 102932562 0.293 0.92 HapMap 1000GP C 0.65 A 0.35 C/A CEU rs13001325 2 102939036 0.268 0.909 HapMap 1000GP C 0.65 T 0.35 C/T CEU rs12479210 2 102949161 0.293 0.92 HapMap 1000GP C 0.65 T 0.35 C/T CEU rs10208293 2 102966310 0.576 1 HapMap 1000GP G 0.72 A 0.28 G/A CEU rs7600901 2 102915571 0.097 0.635 HapMap 1000GP A 0.73 G 0.27 A/G CEU rs887972 2 103040945 0.313 1 HapMap 1000GP G 0.73 A 0.27 G/A CEU rs887971 2 103041167 0.316 1 HapMap 1000GP T 0.73 C 0.27 T/C CEU rs2310220 2 102951851 0.273 1 HapMap 1000GP G 0.74 A 0.26 G/A CEU rs17027258 2 103091540 0.301 1 HapMap 1000GP A 0.74 G 0.26 A/G CEU rs1420103 2 102948632 0.273 1 HapMap 1000GP A 0.75 C 0.25 A/C CEU rs873022 2 102955683 0.301 1 HapMap 1000GP G 0.75 T 0.25 G/T CEU rs3771177 2 102955860 0.301 1 HapMap 1000GP G 0.75 T 0.25 G/T CEU rs3732129 2 102957532 0.301 1 HapMap 1000GP T 0.75 C 0.25 T/C CEU rs3821204 2 102960281 0.301 1 HapMap 1000GP C 0.75 G 0.25 C/G CEU rs12469506 2 102965871 0.301 1 HapMap 1000GP C 0.75 T 0.25 C/T CEU rs3771172 2 102985812 0.301 1 HapMap 1000GP C 0.75 T 0.25 C/T CEU rs3771171 2 102985950 0.285 1 HapMap 1000GP T 0.75 C 0.25 T/C CEU rs2160202 2 102986154 0.296 1 HapMap 1000GP G 0.75 A 0.25 G/A CEU rs7558013 2 102992806 0.604 1 HapMap 1000GP G 0.75 T 0.25 G/T CEU rs17027037 2 102994884 0.301 1 HapMap 1000GP A 0.75 G 0.25 A/G CEU rs2080289 2 102995020 0.301 1 HapMap 1000GP G 0.75 A 0.25 G/A CEU rs11683700 2 102996805 0.308 1 HapMap 1000GP C 0.75 T 0.25 C/T CEU rs4851570 2 103006387 0.301 1 HapMap 1000GP A 0.75 G 0.25 A/G CEU rs11693955 2 103029165 0.301 1 HapMap 1000GP A 0.75 T 0.25 A/T CEU rs3771156 2 103036677 0.301 1 HapMap 1000GP C 0.75 T 0.25 C/T CEU rs11681718 2 103051144 0.301 1 HapMap 1000GP A 0.75 G 0.25 A/G CEU rs4851582 2 103051558 0.301 1 HapMap 1000GP T 0.75 C 0.25 T/C CEU rs17027179 2 103057159 0.301 1 HapMap 1000GP C 0.75 T 0.25 C/T CEU rs10490203 2 103059237 0.301 1 HapMap 1000GP T 0.75 G 0.25 T/G CEU rs11694360 2 103061147 0.177 0.732 HapMap 1000GP G 0.75 A 0.25 G/A CEU rs11123928 2 103061286 0.177 0.732 HapMap 1000GP G 0.75 A 0.25 G/A CEU rs7597017 2 103062116 0.185 0.73 HapMap 1000GP A 0.75 G 0.25 A/G CEU rs6543135 2 103062406 0.708 1 HapMap 1000GP C 0.75 T 0.25 C/T CEU rs17027230 2 103079330 0.301 1 HapMap 1000GP C 0.75 T 0.25 C/T CEU rs3771202 2 102772669 0.104 0.712 HapMap 1000GP C 0.77 G 0.23 C/G CEU rs3917245 2 102775155 0.112 0.732 HapMap 1000GP G 0.77 A 0.23 G/A CEU rs3917246 2 102775164 0.112 0.732 HapMap 1000GP T 0.77 C 0.23 T/C CEU rs759381 2 103094323 0.26 1 HapMap 1000GP A 0.77 T 0.23 A/T CEU rs4851008 2 103026611 0.209 1 HapMap 1000GP G 0.78 C 0.22 G/C CEU rs12712153 2 103111761 0.227 0.893 HapMap 1000GP C 0.78 T 0.22 C/T CEU rs11687071 2 103111920 0.232 0.898 HapMap 1000GP G 0.78 A 0.22 G/A CEU rs7566063 2 103112565 0.237 0.898 HapMap 1000GP C 0.78 A 0.22 C/A CEU rs7591878 2 103112658 0.227 0.893 HapMap 1000GP G 0.78 A 0.22 G/A CEU rs6543153 2 103114203 0.232 0.898 HapMap 1000GP T 0.78 C 0.22 T/C CEU rs6543154 2 103114334 0.222 0.893 HapMap 1000GP T 0.78 C 0.22 T/C CEU rs6543155 2 103114895 0.222 0.893 HapMap 1000GP G 0.78 A 0.22 G/A CEU rs7573566 2 103115205 0.232 0.898 HapMap 1000GP T 0.78 C 0.22 T/C CEU rs11123934 2 103115568 0.232 0.898 HapMap 1000GP G 0.78 A 0.22 G/A CEU rs12987295 2 103115838 0.232 0.898 HapMap 1000GP G 0.78 A 0.22 G/A CEU rs12995030 2 103116466 0.248 0.898 HapMap 1000GP C 0.78 G 0.22 C/G CEU rs6728288 2 103117268 0.232 0.898 HapMap 1000GP A 0.78 T 0.22 A/T CEU rs2075192 2 103118228 0.232 0.898 HapMap 1000GP A 0.78 G 0.22 A/G CEU rs2075191 2 103118299 0.184 0.872 HapMap 1000GP G 0.78 T 0.22 G/T CEU rs2075190 2 103118559 0.232 0.898 HapMap 1000GP A 0.78 T 0.22 A/T CEU rs2075189 2 103118689 0.237 0.898 HapMap 1000GP C 0.78 G 0.22 C/G CEU rs11690932 2 103119029 0.232 0.898 HapMap 1000GP G 0.78 A 0.22 G/A CEU rs4851605 2 103120868 0.258 0.894 HapMap 1000GP A 0.78 G 0.22 A/G CEU rs4851606 2 103120889 0.237 0.898 HapMap 1000GP G 0.78 A 0.22 G/A CEU rs3917256 2 102776855 0.094 0.712 HapMap 1000GP C 0.79 T 0.21 C/T CEU rs2058622 2 102985424 0.167 1 HapMap 1000GP A 0.79 G 0.21 A/G CEU rs3771170 2 102985980 0.137 0.855 HapMap 1000GP T 0.79 A 0.21 T/A CEU rs2058623 2 102986170 0.175 1 HapMap 1000GP C 0.79 T 0.21 C/T CEU rs1465321 2 102986618 0.167 1 HapMap 1000GP T 0.79 C 0.21 T/C CEU rs2270297 2 102992675 0.209 1 HapMap 1000GP T 0.79 C 0.21 T/C CEU rs6753717 2 102993161 0.209 1 HapMap 1000GP A 0.79 C 0.21 A/C CEU rs6750020 2 102994714 0.209 1 HapMap 1000GP G 0.79 A 0.21 G/A CEU rs4851007 2 103024813 0.209 1 HapMap 1000GP T 0.79 G 0.21 T/G CEU rs4851575 2 103025203 0.209 1 HapMap 1000GP G 0.79 A 0.21 G/A CEU rs1807782 2 103033147 0.209 1 HapMap 1000GP C 0.79 T 0.21 C/T CEU rs3755268 2 103038527 0.209 1 HapMap 1000GP C 0.79 G 0.21 C/G CEU rs3817465 2 103039584 0.209 1 HapMap 1000GP A 0.79 T 0.21 A/T CEU rs11694658 2 103045020 0.195 1 HapMap 1000GP A 0.79 G 0.21 A/G CEU rs2160232 2 103046880 0.237 1 HapMap 1000GP G 0.79 A 0.21 G/A CEU rs6716784 2 103048467 0.196 1 HapMap 1000GP T 0.79 G 0.21 T/G CEU rs6543134 2 103050458 0.187 1 HapMap 1000GP T 0.79 G 0.21 T/G CEU rs2110735 2 103050925 0.209 1 HapMap 1000GP A 0.79 G 0.21 A/G CEU rs2110734 2 103052206 0.201 1 HapMap 1000GP C 0.79 T 0.21 C/T CEU rs6746271 2 103052995 0.213 1 HapMap 1000GP G 0.79 C 0.21 G/C CEU rs2058658 2 103054803 0.209 1 HapMap 1000GP T 0.79 C 0.21 T/C CEU rs4851009 2 103055644 0.209 1 HapMap 1000GP G 0.79 A 0.21 G/A CEU rs1558650 2 103060024 0.209 1 HapMap 1000GP T 0.79 A 0.21 T/A CEU rs6734736 2 103062880 0.122 1 HapMap 1000GP C 0.79 T 0.21 C/T CEU rs4070554 2 103074493 0.209 1 HapMap 1000GP A 0.79 G 0.21 A/G CEU rs6761825 2 103075561 0.209 1 HapMap 1000GP T 0.79 C 0.21 T/C CEU rs6705001 2 103076210 0.209 1 HapMap 1000GP A 0.79 G 0.21 A/G CEU rs6543141 2 103076351 0.209 1 HapMap 1000GP G 0.79 A 0.21 G/A CEU rs4241210 2 103078740 0.209 1 HapMap 1000GP G 0.79 A 0.21 G/A CEU rs6720564 2 103079297 0.209 1 HapMap 1000GP T 0.79 C 0.21 T/C CEU rs6717915 2 103079619 0.209 1 HapMap 1000GP A 0.79 C 0.21 A/C CEU rs6718157 2 103079814 0.201 1 HapMap 1000GP A 0.79 T 0.21 A/T CEU rs917996 2 103082273 0.209 1 HapMap 1000GP C 0.79 A 0.21 C/A CEU rs990171 2 103086770 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103125182 0.145 0.859 HapMap 1000GP C 0.81 T 0.19 C/T CEU rs4851607 2 103125632 0.157 0.827 HapMap 1000GP C 0.81 T 0.19 C/T CEU rs10195948 2 103125736 0.134 0.843 HapMap 1000GP T 0.81 C 0.19 T/C CEU rs12712155 2 103127963 0.145 0.859 HapMap 1000GP A 0.81 T 0.19 A/T CEU rs4851609 2 103128866 0.145 0.859 HapMap 1000GP T 0.81 C 0.19 T/C CEU rs11676371 2 103129692 0.123 0.828 HapMap 1000GP G 0.81 C 0.19 G/C CEU rs2192758 2 103132269 0.145 0.859 HapMap 1000GP C 0.81 G 0.19 C/G CEU rs2192757 2 103132378 0.156 0.864 HapMap 1000GP C 0.81 T 0.19 C/T CEU rs6714379 2 103133310 0.147 0.857 HapMap 1000GP A 0.81 G 0.19 A/G CEU rs1523203 2 103135759 0.156 0.864 HapMap 1000GP A 0.81 G 0.19 A/G CEU rs4851611 2 103135938 0.156 0.864 HapMap 1000GP A 0.81 T 0.19 A/T CEU rs4851613 2 103137990 0.157 0.868 HapMap 1000GP T 0.81 C 0.19 T/C CEU rs6750971 2 103138825 0.156 0.864 HapMap 1000GP A 0.81 G 0.19 A/G CEU rs10193407 2 103139298 0.156 0.864 HapMap 1000GP C 0.81 T 0.19 C/T CEU rs11123935 2 103139751 0.156 0.864 HapMap 1000GP A 0.81 G 0.19 A/G CEU rs1024798 2 103141651 0.145 0.859 HapMap 1000GP G 0.81 C 0.19 G/C CEU rs6724213 2 103151219 0.13 0.822 HapMap 1000GP A 0.81 C 0.19 A/C CEU rs2871474 2 103151441 0.145 0.859 HapMap 1000GP G 0.81 A 0.19 G/A CEU rs2287048 2 102773999 0.227 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs17027029 2 102990648 0.181 1 HapMap 1000GP G 0.82 C 0.18 G/C CEU rs3771164 2 102991786 0.178 1 HapMap 1000GP A 0.82 T 0.18 A/T CEU rs12991737 2 103018128 0.198 1 HapMap 1000GP T 0.82 A 0.18 T/A CEU rs10181785 2 103025274 0.193 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs12712148 2 103025547 0.193 1 HapMap 1000GP G 0.82 A 0.18 G/A CEU rs7586983 2 103028066 0.193 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs2272127 2 103039873 0.21 1 HapMap 1000GP C 0.82 G 0.18 C/G CEU rs10166330 2 103050390 0.193 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs11465736 2 103067930 0 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs10169676 2 103074919 0.193 1 HapMap 1000GP G 0.82 A 0.18 G/A CEU rs741284 2 103083324 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102957348 0.159 1 HapMap 1000GP C 0.86 T 0.14 C/T CEU rs6719130 2 102958236 0.322 1 HapMap 1000GP C 0.86 T 0.14 C/T CEU rs3771167 2 102986188 0.277 1 HapMap 1000GP A 0.86 G 0.14 A/G CEU rs6728945 2 102986471 0.31 1 HapMap 1000GP T 0.86 C 0.14 T/C CEU rs17639215 2 102953444 0.322 1 HapMap 1000GP G 0.87 A 0.13 G/A CEU rs12989197 2 102962739 0.056 1 HapMap 1000GP G 0.87 A 0.13 G/A CEU rs12996097 2 102963628 0.056 1 HapMap 1000GP G 0.87 A 0.13 G/A CEU rs13028993 2 102963949 0.056 1 HapMap 1000GP T 0.87 C 0.13 T/C CEU rs17696376 2 102965153 0.193 1 HapMap 1000GP C 0.87 T 0.13 C/T CEU rs12999542 2 102965392 0.056 1 HapMap 1000GP A 0.87 C 0.13 A/C CEU rs4851567 2 102972807 0.193 1 HapMap 1000GP G 0.87 A 0.13 G/A CEU rs12105808 2 102974222 0.198 1 HapMap 1000GP A 0.87 T 0.13 A/T CEU rs11465596 2 102987093 0.301 1 HapMap 1000GP C 0.87 A 0.13 C/A CEU rs6759588 2 103040159 0.241 1 HapMap 1000GP A 0.87 G 0.13 A/G CEU rs11465698 2 103054577 0.264 1 HapMap 1000GP T 0.87 C 0.13 T/C CEU rs1880000 2 103099953 0.245 1 HapMap 1000GP T 0.87 C 0.13 T/C CEU rs6749440 2 103101846 0.245 1 HapMap 1000GP C 0.87 T 0.13 C/T CEU rs1403549 2 103110745 0.245 1 HapMap 1000GP G 0.87 C 0.13 G/C CEU rs17027327 2 103122513 0.245 1 HapMap 1000GP C 0.87 A 0.13 C/A CEU rs7587856 2 103144305 0.242 1 HapMap 1000GP C 0.87 A 0.13 C/A CEU rs9677607 2 103149520 0.245 1 HapMap 1000GP A 0.87 T 0.13 A/T CEU rs7593444 2 103158561 0.245 1 HapMap 1000GP G 0.87 A 0.13 G/A CEU rs17027421 2 103159882 0.252 1 HapMap 1000GP A 0.87 G 0.13 A/G CEU rs7582378 2 103162263 0.245 1 HapMap 1000GP C 0.87 A 0.13 C/A CEU rs17027428 2 103163175 0.245 1 HapMap 1000GP G 0.87 A 0.13 G/A CEU rs17027430 2 103163237 0.245 1 HapMap 1000GP T 0.87 C 0.13 T/C CEU rs1523197 2 103163732 0.245 1 HapMap 1000GP A 0.87 G 0.13 A/G CEU rs2310294 2 103165706 0.245 1 HapMap 1000GP A 0.87 G 0.13 A/G CEU rs1989399 2 103166742 0.245 1 HapMap 1000GP G 0.87 A 0.13 G/A CEU rs723292 2 103166804 0.245 1 HapMap 1000GP A 0.87 G 0.13 A/G CEU rs1476984 2 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HapMap 1000GP C 0.9 T 0.1 C/T CEU rs6543147 2 103099945 0.047 1 HapMap 1000GP G 0.9 A 0.1 G/A CEU rs2080316 2 103104229 0.047 1 HapMap 1000GP A 0.9 G 0.1 A/G CEU rs17027352 2 103138836 0.042 1 HapMap 1000GP C 0.9 T 0.1 C/T CEU rs7576682 2 103143312 0.026 1 HapMap 1000GP G 0.9 A 0.1 G/A CEU rs3849363 2 103143548 0.047 1 HapMap 1000GP T 0.9 G 0.1 T/G CEU rs13388541 2 103147818 0.042 1 HapMap 1000GP T 0.9 C 0.1 T/C CEU rs10183491 2 103151587 0.047 1 HapMap 1000GP T 0.9 G 0.1 T/G CEU rs17027415 2 103154594 0.047 1 HapMap 1000GP C 0.9 A 0.1 C/A CEU rs4851553 2 102811808 0.073 0.766 HapMap 1000GP A 0.91 G 0.09 A/G CEU rs1362347 2 102919585 0.015 1 HapMap 1000GP C 0.91 T 0.09 C/T CEU rs13001301 2 102938998 0.015 1 HapMap 1000GP C 0.91 T 0.09 C/T CEU rs17695648 2 102948181 0.015 1 HapMap 1000GP A 0.91 G 0.09 A/G CEU rs3755278 2 102952217 0.015 1 HapMap 1000GP T 0.91 C 0.09 T/C CEU rs13016771 2 102959080 0.015 1 HapMap 1000GP G 0.91 A 0.09 G/A CEU rs2228139 2 102781649 0.045 0.684 HapMap 1000GP 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rs3917334 2 102796880 0.008 1 HapMap 1000GP G 0.99 T 0.01 G/T CEU rs7562706 2 102810899 0.008 1 HapMap 1000GP G 0.99 T 0.01 G/T CEU rs7606834 2 102811400 0.008 1 HapMap 1000GP A 0.99 T 0.01 A/T CEU rs7596051 2 102817675 0.008 1 HapMap 1000GP C 0.99 T 0.01 C/T CEU rs6713939 2 102823188 0.008 1 HapMap 1000GP C 0.99 T 0.01 C/T CEU rs6730496 2 102839010 0.008 1 HapMap 1000GP A 0.99 G 0.01 A/G CEU rs6752537 2 102841912 0.026 1 HapMap 1000GP G 0.99 A 0.01 G/A CEU rs13428595 2 102850317 0.008 1 HapMap 1000GP T 0.99 G 0.01 T/G CEU rs11465674 2 103035434 0.008 1 HapMap 1000GP T 0.99 G 0.01 T/G CEU rs11465731 2 103066939 0.008 1 HapMap 1000GP G 0.99 A 0.01 G/A YRI rs3917321 2 102793221 0.023 1 HapMap 1000GP A NA G NA A/G YRI rs3917302 2 102787096 0.024 1 HapMap 1000GP C NA T NA C/T YRI rs1861245 2 102966906 1 1 HapMap 1000GP A NA G NA A/G YRI rs11465679 2 103036409 0.023 1 HapMap 1000GP A NA G NA A/G YRI rs10208293 2 102966310 0.489 1 HapMap 1000GP G 0.55 A 0.45 G/A YRI rs6734742 2 102967857 0.852 1 HapMap 1000GP C 0.66 T 0.34 C/T YRI rs6752482 2 102967858 0.827 1 HapMap 1000GP T 0.66 C 0.34 T/C YRI rs10176664 2 102976172 0.916 1 HapMap 1000GP G 0.67 A 0.33 G/A YRI rs1974675 2 102986375 0.951 1 HapMap 1000GP G 0.67 A 0.33 G/A YRI rs10170583 2 102974764 0.956 1 HapMap 1000GP G 0.68 A 0.32 G/A YRI rs10181869 2 102801852 0.072 0.686 HapMap 1000GP C 0.7 A 0.3 C/A YRI rs6543117 2 102929445 0.072 1 HapMap 1000GP A 0.7 G 0.3 A/G YRI rs6751977 2 102967430 0.806 1 HapMap 1000GP T 0.7 C 0.3 T/C YRI rs13408569 2 102955056 0.216 1 HapMap 1000GP G 0.73 C 0.27 G/C YRI rs13408661 2 102955082 0.216 1 HapMap 1000GP G 0.73 A 0.27 G/A YRI rs10173081 2 102957348 0.216 1 HapMap 1000GP C 0.73 T 0.27 C/T YRI rs1882511 2 102883721 0.043 0.749 HapMap 1000GP G 0.74 A 0.26 G/A YRI rs1922288 2 102888565 0.043 0.749 HapMap 1000GP T 0.75 C 0.25 T/C YRI rs9308855 2 102890795 0.043 0.749 HapMap 1000GP A 0.75 G 0.25 A/G YRI rs13424006 2 102967236 1 1 HapMap 1000GP T 0.76 C 0.24 T/C YRI rs6751967 2 102967413 1 1 HapMap 1000GP T 0.76 C 0.24 T/C YRI rs6749114 2 102967587 1 1 HapMap 1000GP A 0.76 C 0.24 A/C YRI rs7572871 2 102853838 0.056 0.674 HapMap 1000GP G 0.77 A 0.23 G/A YRI rs10185897 2 102966790 0.145 0.881 HapMap 1000GP C 0.77 A 0.23 C/A YRI rs17026825 2 102836665 0.046 0.616 HapMap 1000GP A 0.78 T 0.22 A/T YRI rs1024791 2 102837910 0.046 0.616 HapMap 1000GP T 0.78 C 0.22 T/C YRI rs3771186 2 102840411 0.047 0.623 HapMap 1000GP G 0.78 A 0.22 G/A YRI rs10198860 2 102842633 0.051 0.634 HapMap 1000GP T 0.78 A 0.22 T/A YRI rs13416449 2 102842665 0.045 0.607 HapMap 1000GP A 0.78 G 0.22 A/G YRI rs12105808 2 102974222 0.07 1 HapMap 1000GP A 0.79 T 0.21 A/T YRI rs10166535 2 102809860 0.042 0.601 HapMap 1000GP G 0.8 T 0.2 G/T YRI rs3821206 2 102817648 0.042 0.601 HapMap 1000GP C 0.8 T 0.2 C/T YRI rs4851567 2 102972807 0.077 1 HapMap 1000GP G 0.8 A 0.2 G/A YRI rs13425475 2 103025181 0.064 0.806 HapMap 1000GP G 0.81 A 0.19 G/A YRI rs13415651 2 103052038 0.043 0.749 HapMap 1000GP G 0.82 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103046880 0.058 1 HapMap 1000GP G 0.89 A 0.11 G/A YRI rs6705001 2 103076210 0.054 0.666 HapMap 1000GP A 0.89 G 0.11 A/G YRI rs6543141 2 103076351 0.054 0.666 HapMap 1000GP G 0.89 A 0.11 G/A YRI rs4241210 2 103078740 0.054 0.666 HapMap 1000GP G 0.89 A 0.11 G/A YRI rs6717915 2 103079619 0.054 0.666 HapMap 1000GP A 0.89 C 0.11 A/C YRI rs6718157 2 103079814 0.054 0.666 HapMap 1000GP A 0.89 T 0.11 A/T YRI rs917996 2 103082273 0.054 0.666 HapMap 1000GP C 0.89 A 0.11 C/A YRI rs1468791 2 103092021 0.054 0.666 HapMap 1000GP A 0.89 G 0.11 A/G YRI rs13001301 2 102938998 0.173 1 HapMap 1000GP C 0.9 T 0.1 C/T YRI rs17695648 2 102948181 0.227 1 HapMap 1000GP A 0.9 G 0.1 A/G YRI rs3755278 2 102952217 0.227 1 HapMap 1000GP T 0.9 C 0.1 T/C YRI rs6716784 2 103048467 0.07 1 HapMap 1000GP T 0.9 G 0.1 T/G YRI rs2110735 2 103050925 0.054 0.666 HapMap 1000GP A 0.9 G 0.1 A/G YRI rs2110734 2 103052206 0.066 0.672 HapMap 1000GP C 0.9 T 0.1 C/T YRI rs4851009 2 103055644 0.054 0.666 HapMap 1000GP G 0.9 A 0.1 G/A 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1000GP T 0.94 C 0.06 T/C YRI rs3917268 2 102778862 0.065 0.695 HapMap 1000GP A 0.94 T 0.06 A/T YRI rs3917275 2 102779944 0.011 1 HapMap 1000GP A 0.94 G 0.06 A/G YRI rs3755282 2 102854882 0.007 1 HapMap 1000GP C 0.94 T 0.06 C/T YRI rs12993937 2 102855831 0.071 1 HapMap 1000GP G 0.94 T 0.06 G/T YRI rs952437 2 102897159 0.007 1 HapMap 1000GP C 0.94 T 0.06 C/T YRI rs12989419 2 102900754 0.071 1 HapMap 1000GP A 0.94 C 0.06 A/C YRI rs13024772 2 102902173 0.071 1 HapMap 1000GP G 0.94 A 0.06 G/A YRI rs13017541 2 102906176 0.071 1 HapMap 1000GP C 0.94 T 0.06 C/T YRI rs884517 2 102906457 0.019 1 HapMap 1000GP T 0.94 C 0.06 T/C YRI rs13024003 2 102907761 0.048 1 HapMap 1000GP G 0.94 C 0.06 G/C YRI rs873022 2 102955683 0.2 1 HapMap 1000GP G 0.94 T 0.06 G/T YRI rs3771177 2 102955860 0.2 1 HapMap 1000GP G 0.94 T 0.06 G/T YRI rs3732129 2 102957532 0.2 1 HapMap 1000GP T 0.94 C 0.06 T/C YRI rs3821204 2 102960281 0.2 1 HapMap 1000GP C 0.94 G 0.06 C/G YRI rs12469506 2 102965871 0.2 1 HapMap 1000GP C 0.94 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0.05 C/A YRI rs7591878 2 103112658 0.013 1 HapMap 1000GP G 0.95 A 0.05 G/A YRI rs2228139 2 102781649 0.028 1 HapMap 1000GP C 0.96 G 0.04 C/G YRI rs3771196 2 102815727 0.023 1 HapMap 1000GP T 0.96 A 0.04 T/A YRI rs6733727 2 102839219 0.024 1 HapMap 1000GP T 0.96 C 0.04 T/C YRI rs17026874 2 102861682 0.007 1 HapMap 1000GP T 0.96 C 0.04 T/C YRI rs17026878 2 102862835 0.007 1 HapMap 1000GP C 0.96 T 0.04 C/T YRI rs17026889 2 102882916 0.007 1 HapMap 1000GP G 0.96 C 0.04 G/C YRI rs7340445 2 102901879 0.007 1 HapMap 1000GP G 0.96 A 0.04 G/A YRI rs12987260 2 103055634 0.138 1 HapMap 1000GP G 0.96 T 0.04 G/T YRI rs6708944 2 103123951 0.015 1 HapMap 1000GP G 0.96 C 0.04 G/C YRI rs6737329 2 103128892 0.015 1 HapMap 1000GP C 0.96 T 0.04 C/T YRI rs6752045 2 103128931 0.015 1 HapMap 1000GP A 0.96 T 0.04 A/T YRI rs7597566 2 103159938 0.011 1 HapMap 1000GP G 0.96 A 0.04 G/A YRI rs10195375 2 102806641 0.01 1 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs10201203 2 102814004 0.011 1 HapMap 1000GP A 0.97 G 0.03 A/G YRI rs10201417 2 102814233 0.011 1 HapMap 1000GP A 0.97 G 0.03 A/G YRI rs7596051 2 102817675 0.054 0.666 HapMap 1000GP C 0.97 T 0.03 C/T YRI rs10184622 2 102825818 0.011 1 HapMap 1000GP G 0.97 A 0.03 G/A YRI rs10179283 2 102826350 0.011 1 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs10168021 2 102827446 0.011 1 HapMap 1000GP C 0.97 A 0.03 C/A YRI rs10207764 2 102835474 0.011 1 HapMap 1000GP C 0.97 T 0.03 C/T YRI rs6730496 2 102839010 0.057 0.67 HapMap 1000GP A 0.97 G 0.03 A/G YRI rs11903870 2 102886180 0.074 0.711 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs7594361 2 102932332 0.007 1 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs13397711 2 102934427 0.011 1 HapMap 1000GP C 0.97 G 0.03 C/G YRI rs10174243 2 102940014 0.015 1 HapMap 1000GP G 0.97 A 0.03 G/A YRI rs1420103 2 102948632 0.096 1 HapMap 1000GP A 0.97 C 0.03 A/C YRI rs17639215 2 102953444 0.027 1 HapMap 1000GP G 0.97 A 0.03 G/A YRI rs11465695 2 103041764 0.096 1 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs10177895 2 103049529 0.019 1 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs11889853 2 103080313 0.096 1 HapMap 1000GP A 0.97 C 0.03 A/C YRI rs6729198 2 103096712 0.074 1 HapMap 1000GP C 0.97 T 0.03 C/T YRI rs6543154 2 103114334 0.026 1 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs11123934 2 103115568 0.026 1 HapMap 1000GP G 0.97 A 0.03 G/A YRI rs6714379 2 103133310 0.023 1 HapMap 1000GP A 0.97 G 0.03 A/G YRI rs3917248 2 102775377 0.007 1 HapMap 1000GP G 0.98 A 0.02 G/A YRI rs3917255 2 102776730 0.012 1 HapMap 1000GP T 0.98 A 0.02 T/A YRI rs3917305 2 102788760 0.011 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs10181153 2 102801109 0.007 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs6722601 2 102813173 0.011 1 HapMap 1000GP G 0.98 T 0.02 G/T YRI rs13405631 2 102828620 0.019 1 HapMap 1000GP T 0.98 C 0.02 T/C YRI rs7567539 2 102839839 0.011 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs10209002 2 102860848 0.011 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs13423746 2 102883673 0.011 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs10175804 2 102890163 0.011 1 HapMap 1000GP T 0.98 C 0.02 T/C YRI rs10180574 2 102892822 0.013 1 HapMap 1000GP A 0.98 G 0.02 A/G YRI rs10211352 2 102896894 0.011 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs10200993 2 102908695 0.012 1 HapMap 1000GP T 0.98 G 0.02 T/G YRI rs4577297 2 102918018 0.023 1 HapMap 1000GP G 0.98 A 0.02 G/A YRI rs13429528 2 102948868 0.019 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs10181632 2 102956150 0.019 1 HapMap 1000GP A 0.98 G 0.02 A/G YRI rs10168510 2 102963125 0.019 1 HapMap 1000GP G 0.98 T 0.02 G/T YRI rs10193102 2 102963340 0.019 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs10178584 2 102994251 0.019 1 HapMap 1000GP C 0.98 G 0.02 C/G YRI rs13388673 2 103032668 0.019 1 HapMap 1000GP A 0.98 G 0.02 A/G YRI rs11465669 2 103034292 0.004 1 HapMap 1000GP T 0.98 C 0.02 T/C YRI rs10199166 2 103066430 0.024 1 HapMap 1000GP T 0.98 C 0.02 T/C YRI rs9631044 2 103070622 0.019 1 HapMap 1000GP G 0.98 A 0.02 G/A YRI rs13386538 2 103077527 0.02 1 HapMap 1000GP A 0.98 T 0.02 A/T YRI rs10169647 2 103081470 0.019 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs10190130 2 103094638 0.019 1 HapMap 1000GP A 0.98 G 0.02 A/G YRI rs6724322 2 103125182 0.023 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs13423747 2 103128429 0.015 1 HapMap 1000GP A 0.98 G 0.02 A/G YRI rs4851609 2 103128866 0.023 1 HapMap 1000GP T 0.98 C 0.02 T/C YRI rs13417556 2 103130158 0.019 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs10180466 2 103132946 0.019 1 HapMap 1000GP G 0.98 A 0.02 G/A YRI rs3917240 2 102773553 0.023 1 HapMap 1000GP A 0.99 G 0.01 A/G YRI rs3917241 2 102774015 0 1 HapMap 1000GP G 0.99 A 0.01 G/A YRI rs3917270 2 102779392 0.047 1 HapMap 1000GP A 0.99 G 0.01 A/G YRI rs3732133 2 102794278 0.05 1 HapMap 1000GP C 0.99 T 0.01 C/T YRI rs11465628 2 102993700 0.004 1 HapMap 1000GP G 0.99 C 0.01 G/C YRI rs11465671 2 103034582 0 1 HapMap 1000GP A 0.99 G 0.01 A/G YRI rs11895701 2 103055977 0.011 1 HapMap 1000GP G 0.99 T 0.01 G/T YRI rs11465717 2 103061890 0.007 1 HapMap 1000GP C 0.99 T 0.01 C/T YRI rs11465738 2 103068545 0.004 1 HapMap 1000GP G 0.99 A 0.01 G/A YRI rs3917313 2 102790240 0.047 1 HapMap 1000GP T 0.9959 C 0.0041 T/C YRI rs3917341 2 102783439 0.004 1 HapMap 1000GP A 1 G 0 A/G YRI rs1922300 2 102819594 0 1 HapMap 1000GP C 1 T 0 C/T

TABLE 4 SNPs in high LD with rs4742165 ANC LD_SNP CHR BP RSQ DPRIME LD SOURCE FREQ SOURCE A1 A1 FREQ A2 A2 FREQ ALLELES CHB rs10117792 9 6148778 0.211 0.659 HapMap HapMap T 0.837 C 0.163 T/C JPT rs10117792 9 6148778 0.417 0.726 HapMap HapMap T 0.918 C 0.082 T/C MKK rs10117792 9 6148778 0.551 0.791 HapMap HapMap T 0.867 C 0.133 T/C CHD rs10117792 9 6148778 0.404 0.674 HapMap HapMap T 0.882 C 0.118 T/C MEX rs10117792 9 6148778 0.741 1 HapMap HapMap T 0.949 C 0.051 T/C GIH rs10117792 9 6148778 0.884 1 HapMap HapMap T 0.949 C 0.051 T/C CEU rs10117792 9 6148778 0.8 1 HapMap HapMap T 0.912 C 0.088 T/C CEU rs10118795 9 6230658 0.217 1 HapMap HapMap T 0.345 C 0.655 T/C GIH rs10118795 9 6230658 0.085 1 HapMap HapMap T 0.358 C 0.642 T/C JPT rs10118795 9 6230658 0.05 1 HapMap HapMap T 0.535 C 0.465 T/C CEU rs10119713 9 6153823 0.109 1 HapMap HapMap G 0.545 A 0.455 G/A CHD rs10119713 9 6153823 0.152 0.784 HapMap HapMap G 0.676 A 0.324 G/A GIH rs10119713 9 6153823 0.073 1 HapMap HapMap G 0.608 A 0.392 G/A JPT rs10119713 9 6153823 0.131 0.698 HapMap HapMap G 0.808 A 0.192 G/A MKK rs10119713 9 6153823 0.066 0.802 HapMap HapMap G 0.434 A 0.566 G/A MEX rs10119713 9 6153823 0.052 0.693 HapMap HapMap G 0.66 A 0.34 G/A GIH rs10120134 9 6078457 0.004 1 HapMap HapMap G 0.926 A 0.074 G/A JPT rs10120134 9 6078457 0.041 0.632 HapMap HapMap G 0.698 A 0.302 G/A MEX rs10120935 9 6355852 0.001 1 HapMap HapMap G 0.98 C 0.02 G/C MEX rs10121888 9 6304179 0.001 1 HapMap HapMap T 0.02 C 0.98 T/C LWK rs10121888 9 6304179 0.102 0.793 HapMap HapMap T 0.039 C 0.961 T/C MKK rs10121888 9 6304179 0.007 1 HapMap HapMap T 0.047 C 0.953 T/C ASW rs10121888 9 6304179 0.04 1 HapMap HapMap T 0.104 C 0.896 T/C GIH rs10121888 9 6304179 0.001 1 HapMap HapMap T 0.017 C 0.983 T/C CEU rs10124250 9 6151686 0.109 1 HapMap HapMap C 0.549 T 0.451 C/T MEX rs10124250 9 6151686 0.059 0.703 HapMap HapMap C 0.68 T 0.32 C/T CHB rs10124250 9 6151686 0.13 0.619 HapMap HapMap C 0.726 T 0.274 C/T CHD rs10124250 9 6151686 0.183 0.804 HapMap HapMap C 0.706 T 0.294 C/T GIH rs10124250 9 6151686 0.075 1 HapMap HapMap C 0.614 T 0.386 C/T JPT rs10124250 9 6151686 0.163 0.718 HapMap HapMap C 0.837 T 0.163 C/T MKK rs10124250 9 6151686 0.066 0.802 HapMap HapMap C 0.434 T 0.566 C/T ASW rs1037885 9 6320915 0.04 0.626 HapMap HapMap G 0.245 A 0.755 G/A GIH rs1037885 9 6320915 0.001 1 HapMap HapMap G 0.017 A 0.983 G/A MEX rs1037885 9 6320915 0.001 1 HapMap HapMap G 0.03 A 0.97 G/A GIH rs1048274 9 6246292 0.039 1 HapMap HapMap G 0.545 A 0.455 G/A MKK rs1048274 9 6246292 0.057 0.698 HapMap HapMap G 0.535 A 0.465 G/A CEU rs10491836 9 6321421 0.052 1 HapMap HapMap C 0.717 A 0.283 C/A ASW rs10491836 9 6321421 0.041 0.663 HapMap HapMap C 0.736 A 0.264 C/A GIH rs10491836 9 6321421 0.008 1 HapMap HapMap C 0.864 A 0.136 C/A MEX rs10491836 9 6321421 0.013 1 HapMap HapMap C 0.82 A 0.18 C/A MKK rs10491836 9 6321421 0.025 0.718 HapMap HapMap C 0.739 A 0.261 C/A MEX rs10491837 9 6357615 0.001 1 HapMap HapMap A 0.98 G 0.02 A/G YRI rs1052335 9 6320380 0.105 0.645 HapMap HapMap A 0.907 C 0.093 A/C LWK rs1052335 9 6320380 0.019 1 HapMap HapMap A 0.928 C 0.072 A/C MEX rs1052335 9 6320380 0.04 0.671 HapMap HapMap A 0.6 C 0.4 A/C JPT rs1052335 9 6320380 0.004 0.615 HapMap HapMap A 0.843 C 0.157 A/C ASW rs1052335 9 6320380 0.303 1 HapMap HapMap A 0.925 C 0.075 A/C MKK rs106033 9 6002734 0.069 0.638 HapMap HapMap A 0.556 C 0.444 A/C CEU rs10733522 9 5982192 0.001 1 HapMap HapMap C 0.009 T 0.991 C/T MEX rs10733522 9 5982192 0.003 1 HapMap HapMap C 0.06 T 0.94 C/T GIH rs10733522 9 5982192 0.006 1 HapMap HapMap C 0.108 T 0.892 C/T CHB rs10733522 9 5982192 0.116 0.758 HapMap HapMap C 0.307 T 0.693 C/T CHB rs10739082 9 5971901 0.116 0.758 HapMap HapMap A 0.321 G 0.679 A/G GIH rs10739082 9 5971901 0.006 1 HapMap HapMap A 0.103 G 0.897 A/G CEU rs10739082 9 5971901 0.001 1 HapMap HapMap A 0.009 G 0.991 A/G MEX rs10739082 9 5971901 0.003 1 HapMap HapMap A 0.06 G 0.94 A/G ASW rs10739083 9 6057122 0.024 1 HapMap HapMap T 0.896 C 0.104 T/C CHD rs10739083 9 6057122 0.027 1 HapMap HapMap T 0.812 C 0.188 T/C JPT rs10739083 9 6057122 0.007 1 HapMap HapMap T 0.86 C 0.14 T/C MKK rs10739090 9 6277142 0.001 1 HapMap HapMap C 0.01 A 0.99 C/A MEX rs10739090 9 6277142 0.001 1 HapMap HapMap C 0.02 A 0.98 C/A LWK rs10739090 9 6277142 0.138 1 HapMap HapMap C 0.033 A 0.967 C/A YRI rs10739090 9 6277142 0.03 1 HapMap HapMap C 0.013 A 0.987 C/A ASW rs10739090 9 6277142 0.019 1 HapMap HapMap C 0.047 A 0.953 C/A GIH rs10739090 9 6277142 0.001 1 HapMap HapMap C 0.017 A 0.983 C/A MEX rs10758732 9 5981772 0.005 1 HapMap HapMap C 0.08 T 0.92 C/T CEU rs10758732 9 5981772 0.001 1 HapMap HapMap C 0.04 T 0.96 C/T CHB rs10758732 9 5981772 0.076 0.683 HapMap HapMap C 0.331 T 0.669 C/T GIH rs10758732 9 5981772 0.014 1 HapMap HapMap C 0.222 T 0.778 C/T CEU rs10758734 9 5990551 0.001 1 HapMap HapMap T 0.009 C 0.991 T/C GIH rs10758734 9 5990551 0.013 1 HapMap HapMap T 0.216 C 0.784 T/C MEX rs10758734 9 5990551 0.005 1 HapMap HapMap T 0.08 C 0.92 T/C CHB rs10758736 9 6001757 0.023 1 HapMap HapMap G 0.798 A 0.202 G/A CHD rs10758736 9 6001757 0.031 1 HapMap HapMap G 0.794 A 0.206 G/A MEX rs10758739 9 6013927 0.051 0.639 HapMap HapMap T 0.7 C 0.3 T/C CHB rs10758739 9 6013927 0.017 0.889 HapMap HapMap T 0.815 C 0.185 T/C MEX rs10815335 9 5988919 0.005 1 HapMap HapMap T 0.08 C 0.92 T/C CHB rs10815335 9 5988919 0.092 0.729 HapMap HapMap T 0.339 C 0.661 T/C GIH rs10815335 9 5988919 0.014 1 HapMap HapMap T 0.222 C 0.778 T/C CEU rs10815335 9 5988919 0.001 1 HapMap HapMap T 0.009 C 0.991 T/C CHD rs10815337 9 5991599 0.018 1 HapMap HapMap T 0.871 C 0.129 T/C JPT rs10815347 9 6054103 0.006 1 HapMap HapMap G 0.884 A 0.116 G/A LWK rs10815347 9 6054103 0.003 1 HapMap HapMap G 0.989 A 0.011 G/A MEX rs10815347 9 6054103 0.087 0.729 HapMap HapMap G 0.75 A 0.25 G/A ASW rs10815347 9 6054103 0.004 1 HapMap HapMap G 0.953 A 0.047 G/A CHD rs10815347 9 6054103 0.024 1 HapMap HapMap G 0.833 A 0.167 G/A CHB rs10815357 9 6134025 0.265 0.678 HapMap HapMap A 0.839 G 0.161 A/G GIH rs10815357 9 6134025 0.159 0.692 HapMap HapMap A 0.875 G 0.125 A/G CHB rs10815358 9 6134065 0.265 0.678 HapMap HapMap G 0.851 A 0.149 G/A GIH rs10815358 9 6134065 0.162 0.697 HapMap HapMap G 0.874 A 0.126 G/A JPT rs10815388 9 6222242 0.05 1 HapMap HapMap C 0.535 T 0.465 C/T CEU rs10815388 9 6222242 0.217 1 HapMap HapMap C 0.341 T 0.659 C/T GIH rs10815388 9 6222242 0.085 1 HapMap HapMap C 0.358 T 0.642 C/T MKK rs10815393 9 6230324 0.005 0.601 HapMap HapMap T 0.906 C 0.094 T/C ASW rs10815393 9 6230324 0.046 1 HapMap HapMap T 0.827 C 0.173 T/C CEU rs10815393 9 6230324 0.041 1 HapMap HapMap T 0.768 C 0.232 T/C GIH rs10815393 9 6230324 0.006 1 HapMap HapMap T 0.885 C 0.115 T/C MEX rs10815393 9 6230324 0.007 0.819 HapMap HapMap T 0.867 C 0.133 T/C CEU rs10815398 9 6262766 0.025 0.626 HapMap HapMap C 0.354 A 0.646 C/A GIH rs10815398 9 6262766 0.039 1 HapMap HapMap C 0.455 A 0.545 C/A GIH rs10815402 9 6283715 0.036 1 HapMap HapMap G 0.568 A 0.432 G/A ASW rs10815402 9 6283715 0.23 0.671 HapMap HapMap G 0.877 A 0.123 G/A CEU rs10975412 9 6039547 0.016 1 HapMap HapMap A 0.858 G 0.142 A/G CHB rs10975412 9 6039547 0.004 1 HapMap HapMap A 0.958 G 0.042 A/G GIH rs10975412 9 6039547 0.016 1 HapMap HapMap A 0.756 G 0.244 A/G MEX rs10975412 9 6039547 0.011 1 HapMap HapMap A 0.851 G 0.149 A/G MEX rs10975413 9 6039843 0.01 1 HapMap HapMap A 0.857 G 0.143 A/G CEU rs10975413 9 6039843 0.016 1 HapMap HapMap A 0.858 G 0.142 A/G CHB rs10975413 9 6039843 0.004 1 HapMap HapMap A 0.958 G 0.042 A/G GIH rs10975413 9 6039843 0.015 1 HapMap HapMap A 0.756 G 0.244 A/G GIH rs10975416 9 6041924 0.015 1 HapMap HapMap T 0.756 G 0.244 T/G MEX rs10975416 9 6041924 0.009 1 HapMap HapMap T 0.87 G 0.13 T/G CEU rs10975416 9 6041924 0.016 1 HapMap HapMap T 0.858 G 0.142 T/G CHB rs10975416 9 6041924 0.004 1 HapMap HapMap T 0.958 G 0.042 T/G JPT rs10975422 9 6063817 0.001 1 HapMap HapMap G 0.988 C 0.012 G/C CHD rs10975422 9 6063817 0.001 1 HapMap HapMap G 0.994 C 0.006 G/C ASW rs10975422 9 6063817 0.019 1 HapMap HapMap G 0.952 C 0.048 G/C CHB rs10975422 9 6063817 0.001 1 HapMap HapMap G 0.988 C 0.012 G/C YRI rs10975438 9 6103103 0.103 0.743 HapMap HapMap C 0.965 T 0.035 C/T MKK rs10975438 9 6103103 0.127 0.825 HapMap HapMap C 0.976 T 0.024 C/T GIH rs10975444 9 6109329 0.139 0.822 HapMap HapMap A 0.812 G 0.188 A/G ASW rs10975444 9 6109329 0.019 1 HapMap HapMap A 0.934 G 0.066 A/G CHB rs10975444 9 6109329 0.201 0.796 HapMap HapMap A 0.774 G 0.226 A/G ASW rs10975450 9 6123672 0.018 1 HapMap HapMap A 0.933 T 0.067 A/T CHB rs10975450 9 6123672 0.232 0.804 HapMap HapMap A 0.775 T 0.225 A/T GIH rs10975450 9 6123672 0.182 0.835 HapMap HapMap A 0.843 T 0.157 A/T YRI rs10975454 9 6125411 0.025 1 HapMap HapMap C 0.924 A 0.076 C/A LWK rs10975454 9 6125411 0.006 1 HapMap HapMap C 0.978 A 0.022 C/A MKK rs10975454 9 6125411 0.007 1 HapMap HapMap C 0.948 A 0.052 C/A JPT rs10975454 9 6125411 0.007 1 HapMap HapMap C 0.878 A 0.122 C/A GIH rs10975454 9 6125411 0.008 1 HapMap HapMap C 0.858 A 0.142 C/A CHD rs10975454 9 6125411 0.025 1 HapMap HapMap C 0.827 A 0.173 C/A CHB rs10975454 9 6125411 0.017 1 HapMap HapMap C 0.863 A 0.137 C/A CEU rs10975463 9 6139006 0.014 1 HapMap HapMap A 0.903 G 0.097 A/G LWK rs10975463 9 6139006 0.023 1 HapMap HapMap A 0.917 G 0.083 A/G MEX rs10975463 9 6139006 0.003 1 HapMap HapMap A 0.96 G 0.04 A/G MKK rs10975463 9 6139006 0.02 1 HapMap HapMap A 0.871 G 0.129 A/G YRI rs10975463 9 6139006 0.028 1 HapMap HapMap A 0.925 G 0.075 A/G MEX rs10975501 9 6223221 0.002 1 HapMap HapMap A 0.041 C 0.959 A/C CEU rs10975501 9 6223221 0.005 0.757 HapMap HapMap A 0.05 C 0.95 A/C GIH rs10975501 9 6223221 0 1 HapMap HapMap A 0.006 C 0.994 A/C MKK rs10975501 9 6223221 0.037 1 HapMap HapMap A 0.213 C 0.787 A/C JPT rs10975514 9 6236144 0.053 1 HapMap HapMap G 0.561 A 0.439 G/A GIH rs10975514 9 6236144 0.039 1 HapMap HapMap G 0.545 A 0.455 G/A CEU rs10975514 9 6236144 0.043 1 HapMap HapMap G 0.694 A 0.306 G/A JPT rs10975516 9 6237693 0.02 0.666 HapMap HapMap G 0.57 A 0.43 G/A GIH rs10975516 9 6237693 0.039 1 HapMap HapMap G 0.545 A 0.455 G/A GIH rs10975519 9 6243571 0.043 1 HapMap HapMap C 0.529 T 0.471 C/T JPT rs10975519 9 6243571 0.069 1 HapMap HapMap C 0.589 T 0.411 C/T MKK rs10975519 9 6243571 0.058 0.684 HapMap HapMap C 0.525 T 0.475 C/T GIH rs10975520 9 6243710 0.039 1 HapMap HapMap G 0.545 C 0.455 G/C JPT rs10975527 9 6278738 0.418 0.727 HapMap HapMap G 0.93 T 0.07 G/T MEX rs10975527 9 6278738 0 1 HapMap HapMap G 0.99 T 0.01 G/T GIH rs10975539 9 6298729 0.007 1 HapMap HapMap C 0.875 T 0.125 C/T LWK rs10975539 9 6298729 0.001 1 HapMap HapMap C 0.994 T 0.006 C/T MKK rs10975539 9 6298729 0.002 1 HapMap HapMap C 0.986 T 0.014 C/T CEU rs10975539 9 6298729 0.027 1 HapMap HapMap C 0.792 T 0.208 C/T ASW rs10975539 9 6298729 0.014 1 HapMap HapMap C 0.894 T 0.106 C/T CHD rs10975543 9 6307385 0.05 1 HapMap HapMap C 0.006 T 0.994 C/T MEX rs10975543 9 6307385 0.001 1 HapMap HapMap C 0.01 T 0.99 C/T MKK rs10975543 9 6307385 0.002 1 HapMap HapMap C 0.014 T 0.986 C/T ASW rs10975543 9 6307385 0.022 1 HapMap HapMap C 0.049 T 0.951 C/T GIH rs10975543 9 6307385 0.001 1 HapMap HapMap C 0.017 T 0.983 C/T LWK rs10975543 9 6307385 0.078 1 HapMap HapMap C 0.017 T 0.983 C/T CHD rs10975552 9 6341834 0.047 1 HapMap HapMap T 0.718 C 0.282 T/C GIH rs10975552 9 6341834 0.029 1 HapMap HapMap T 0.625 C 0.375 T/C LWK rs10975552 9 6341834 0.03 0.614 HapMap HapMap T 0.761 C 0.239 T/C MEX rs10975552 9 6341834 0.023 1 HapMap HapMap T 0.73 C 0.27 T/C MKK rs10975552 9 6341834 0.022 0.684 HapMap HapMap T 0.745 C 0.255 T/C CEU rs10975552 9 6341834 0.073 1 HapMap HapMap T 0.628 C 0.372 T/C CHB rs10975552 9 6341834 0.033 1 HapMap HapMap T 0.738 C 0.262 T/C MEX rs10975556 9 6353043 0.191 1 HapMap HapMap C 0.99 G 0.01 C/G CEU rs10975556 9 6353043 0.579 0.86 HapMap HapMap C 0.938 G 0.062 C/G MKK rs10975556 9 6353043 0.001 1 HapMap HapMap C 0.99 G 0.01 C/G YRI rs10975558 9 6354449 0.049 1 HapMap HapMap C 0.854 T 0.146 C/T ASW rs10975558 9 6354449 0.052 1 HapMap HapMap C 0.811 T 0.189 C/T MKK rs10975558 9 6354449 0.012 0.72 HapMap HapMap C 0.848 T 0.152 C/T MEX rs10975558 9 6354449 0.009 1 HapMap HapMap C 0.86 T 0.14 C/T CEU rs10975558 9 6354449 0.052 1 HapMap HapMap C 0.721 T 0.279 C/T GIH rs10975558 9 6354449 0.008 1 HapMap HapMap C 0.858 T 0.142 C/T CHB rs11506678 9 6030282 0.004 1 HapMap HapMap C 0.958 A 0.042 C/A GIH rs11506678 9 6030282 0.013 1 HapMap HapMap C 0.784 A 0.216 C/A MEX rs11506678 9 6030282 0.002 1 HapMap HapMap C 0.97 A 0.03 C/A LWK rs11787939 9 6212553 0.098 0.776 HapMap HapMap G 0.606 A 0.394 G/A MKK rs11787939 9 6212553 0.033 0.781 HapMap HapMap G 0.713 A 0.287 G/A YRI rs11787939 9 6212553 0.056 0.612 HapMap HapMap G 0.664 A 0.336 G/A CEU rs11787939 9 6212553 0.007 1 HapMap HapMap G 0.956 A 0.044 G/A CHD rs11793017 9 6068204 0.02 1 HapMap HapMap C 0.853 T 0.147 C/T GIH rs11793017 9 6068204 0.015 1 HapMap HapMap C 0.767 T 0.233 C/T JPT rs11793017 9 6068204 0.007 1 HapMap HapMap C 0.876 T 0.124 C/T LWK rs11793017 9 6068204 0.007 0.831 HapMap HapMap C 0.961 T 0.039 C/T CHB rs11793017 9 6068204 0.013 1 HapMap HapMap C 0.881 T 0.119 C/T MKK rs11793017 9 6068204 0.01 1 HapMap HapMap C 0.934 T 0.066 C/T YRI rs11793017 9 6068204 0.038 1 HapMap HapMap C 0.889 T 0.111 C/T MKK rs12000491 9 6247367 0.026 1 HapMap HapMap T 0.839 C 0.161 T/C YRI rs12000491 9 6247367 0.059 0.767 HapMap HapMap T 0.732 C 0.268 T/C ASW rs12000491 9 6247367 0.086 1 HapMap HapMap T 0.811 C 0.189 T/C GIH rs12000491 9 6247367 0.001 1 HapMap HapMap T 0.989 C 0.011 T/C MEX rs12000491 9 6247367 0.001 1 HapMap HapMap T 0.97 C 0.03 T/C CEU rs12000491 9 6247367 0.004 1 HapMap HapMap T 0.965 C 0.035 T/C ASW rs12003769 9 6158335 0.427 0.759 HapMap HapMap T 0.821 C 0.179 T/C CEU rs12003769 9 6158335 0.815 1 HapMap HapMap T 0.907 C 0.093 T/C CHB rs12003769 9 6158335 0.307 0.827 HapMap HapMap T 0.827 C 0.173 T/C CHD rs12003769 9 6158335 0.433 0.678 HapMap HapMap T 0.888 C 0.112 T/C GIH rs12003769 9 6158335 0.884 1 HapMap HapMap T 0.949 C 0.051 T/C JPT rs12003769 9 6158335 0.499 0.779 HapMap HapMap T 0.913 C 0.087 T/C MEX rs12003769 9 6158335 0.791 1 HapMap HapMap T 0.94 C 0.06 T/C MKK rs12003769 9 6158335 0.384 0.842 HapMap HapMap T 0.801 C 0.199 T/C YRI rs12237914 9 6296896 0.025 0.687 HapMap HapMap A 0.821 G 0.179 A/G CEU rs12237914 9 6296896 0.128 0.817 HapMap HapMap A 0.593 G 0.407 A/G GIH rs12237914 9 6296896 0.076 1 HapMap HapMap A 0.615 G 0.385 A/G CHD rs12337790 9 6015559 0.101 1 HapMap HapMap T 0.988 C 0.012 T/C GIH rs12337790 9 6015559 0.012 1 HapMap HapMap T 0.807 C 0.193 T/C LWK rs12337790 9 6015559 0.048 1 HapMap HapMap T 0.839 C 0.161 T/C MEX rs12337790 9 6015559 0.001 1 HapMap HapMap T 0.98 C 0.02 T/C CHB rs12337790 9 6015559 0.004 1 HapMap HapMap T 0.97 C 0.03 T/C LWK rs12339889 9 5998989 0.015 1 HapMap HapMap C 0.944 G 0.056 C/G GIH rs12339889 9 5998989 0.006 1 HapMap HapMap C 0.886 G 0.114 C/G MEX rs12339889 9 5998989 0.001 1 HapMap HapMap C 0.98 G 0.02 C/G CHB rs12339889 9 5998989 0.004 1 HapMap HapMap C 0.97 G 0.03 C/G YRI rs12339889 9 5998989 0.134 0.612 HapMap HapMap C 0.929 G 0.071 C/G CEU rs12349559 9 6135491 0.815 1 HapMap HapMap T 0.898 C 0.102 T/C CHB rs12349559 9 6135491 0.505 0.85 HapMap HapMap T 0.869 C 0.131 T/C ASW rs12349559 9 6135491 0.427 0.759 HapMap HapMap T 0.84 C 0.16 T/C CHD rs12349559 9 6135491 0.54 0.785 HapMap HapMap T 0.905 C 0.095 T/C MEX rs12349559 9 6135491 0.791 1 HapMap HapMap T 0.94 C 0.06 T/C MKK rs12349559 9 6135491 0.56 0.761 HapMap HapMap T 0.878 C 0.122 T/C YRI rs12349559 9 6135491 0.338 0.814 HapMap HapMap T 0.881 C 0.119 T/C JPT rs12349559 9 6135491 0.79 1 HapMap HapMap T 0.942 C 0.058 T/C GIH rs12349559 9 6135491 0.884 1 HapMap HapMap T 0.949 C 0.051 T/C GIH rs12378118 9 6023278 0.004 1 HapMap HapMap G 0.932 A 0.068 G/A MEX rs12378118 9 6023278 0.016 1 HapMap HapMap G 0.78 A 0.22 G/A ASW rs12378311 9 6078903 0.019 1 HapMap HapMap G 0.934 C 0.066 G/C GIH rs12378311 9 6078903 0.119 0.673 HapMap HapMap G 0.847 C 0.153 G/C JPT rs12378311 9 6078903 0.002 1 HapMap HapMap G 0.942 C 0.058 G/C GIH rs12551256 9 6221239 0.05 1 HapMap HapMap A 0.483 G 0.517 A/G CEU rs12551256 9 6221239 0.076 1 HapMap HapMap A 0.566 G 0.434 A/G JPT rs12551256 9 6221239 0.047 1 HapMap HapMap A 0.541 G 0.459 A/G ASW rs1317230 9 6241012 0.224 0.779 HapMap HapMap C 0.896 A 0.104 C/A JPT rs1317230 9 6241012 0.02 0.666 HapMap HapMap C 0.57 A 0.43 C/A GIH rs1317230 9 6241012 0.037 1 HapMap HapMap C 0.557 A 0.443 C/A CEU rs1322166 9 6299862 0.07 1 HapMap HapMap C 0.332 T 0.668 C/T GIH rs1322166 9 6299862 0.009 1 HapMap HapMap C 0.153 T 0.847 C/T MKK rs1322166 9 6299862 0.049 0.781 HapMap HapMap C 0.374 T 0.626 C/T MEX rs1322166 9 6299862 0.018 1 HapMap HapMap C 0.24 T 0.76 C/T GIH rs13291323 9 6175360 0 1 HapMap HapMap T 0.994 C 0.006 T/C ASW rs13291323 9 6175360 0.009 1 HapMap HapMap T 0.972 C 0.028 T/C CEU rs13291323 9 6175360 0.008 0.921 HapMap HapMap T 0.951 C 0.049 T/C LWK rs13291323 9 6175360 0.012 1 HapMap HapMap T 0.956 C 0.044 T/C MEX rs13291323 9 6175360 0.001 1 HapMap HapMap T 0.98 C 0.02 T/C MKK rs13291323 9 6175360 0.002 0.727 HapMap HapMap T 0.979 C 0.021 T/C ASW rs13293142 9 6160924 0.008 0.741 HapMap HapMap A 0.962 C 0.038 A/C CEU rs13293142 9 6160924 0.008 0.921 HapMap HapMap A 0.947 C 0.053 A/C MEX rs13293142 9 6160924 0.001 1 HapMap HapMap A 0.98 C 0.02 A/C GIH rs13293142 9 6160924 0 1 HapMap HapMap A 0.994 C 0.006 A/C CEU rs13296741 9 6177395 0.01 0.996 HapMap HapMap G 0.941 T 0.059 G/T CHB rs13296741 9 6177395 0.115 1 HapMap HapMap G 0.982 T 0.018 G/T MKK rs13296741 9 6177395 0.004 0.999 HapMap HapMap G 0.975 T 0.025 G/T MEX rs13296741 9 6177395 0.003 1 HapMap HapMap G 0.958 T 0.042 G/T ASW rs13296741 9 6177395 0.009 1 HapMap HapMap G 0.962 T 0.038 G/T JPT rs13296741 9 6177395 0.002 1 HapMap HapMap G 0.976 T 0.024 G/T CHD rs13296741 9 6177395 0.001 1 HapMap HapMap G 0.988 T 0.012 G/T GIH rs13296741 9 6177395 0 1 HapMap HapMap G 0.989 T 0.011 G/T GIH rs13298872 9 6348385 0 1 HapMap HapMap G 0.994 A 0.006 G/A ASW rs13298872 9 6348385 0.019 1 HapMap HapMap G 0.953 A 0.047 G/A MEX rs13298872 9 6348385 0.001 1 HapMap HapMap G 0.98 A 0.02 G/A MKK rs13298872 9 6348385 0.001 1 HapMap HapMap G 0.99 A 0.01 G/A YRI rs13298872 9 6348385 0.006 1 HapMap HapMap G 0.982 A 0.018 G/A CEU rs1330124 9 6043098 0.016 1 HapMap HapMap A 0.858 C 0.142 A/C CHB rs1330124 9 6043098 0.004 1 HapMap HapMap A 0.958 C 0.042 A/C GIH rs1330124 9 6043098 0.015 1 HapMap HapMap A 0.761 C 0.239 A/C MKK rs1330124 9 6043098 0.029 1 HapMap HapMap A 0.822 C 0.178 A/C ASW rs1330380 9 6300829 0.019 1 HapMap HapMap C 0.047 A 0.953 C/A GIH rs1330380 9 6300829 0.001 1 HapMap HapMap C 0.017 A 0.983 C/A MKK rs1330380 9 6300829 0.001 1 HapMap HapMap C 0.007 A 0.993 C/A YRI rs1330380 9 6300829 0.03 1 HapMap HapMap C 0.013 A 0.987 C/A MEX rs1330380 9 6300829 0.001 1 HapMap HapMap C 0.02 A 0.98 C/A LWK rs1330380 9 6300829 0.138 1 HapMap HapMap C 0.033 A 0.967 C/A MKK rs1330383 9 6241507 0.05 0.666 HapMap HapMap G 0.545 T 0.455 G/T JPT rs1330383 9 6241507 0.047 1 HapMap HapMap G 0.564 T 0.436 G/T GIH rs1330383 9 6241507 0.039 1 HapMap HapMap G 0.545 T 0.455 G/T CEU rs1332290 9 6245881 0.025 0.626 HapMap HapMap T 0.353 G 0.647 T/G GIH rs1332290 9 6245881 0.04 1 HapMap HapMap T 0.46 G 0.54 T/G MKK rs1332290 9 6245881 0.115 0.601 HapMap HapMap T 0.703 G 0.297 T/G ASW rs1342326 9 6180076 0.062 0.726 HapMap HapMap A 0.679 C 0.321 A/C CEU rs1342326 9 6180076 0.03 1 HapMap HapMap A 0.832 C 0.168 A/C GIH rs1342326 9 6180076 0.008 1 HapMap HapMap A 0.858 C 0.142 A/C YRI rs1342326 9 6180076 0.144 1 HapMap HapMap A 0.668 C 0.332 A/C LWK rs1342326 9 6180076 0.12 0.774 HapMap HapMap A 0.556 C 0.444 A/C MEX rs1342326 9 6180076 0.012 1 HapMap HapMap A 0.84 C 0.16 A/C ASW rs1342328 9 6200785 0.034 1 HapMap HapMap A 0.906 G 0.094 A/G GIH rs1342328 9 6200785 0.001 1 HapMap HapMap A 0.983 G 0.017 A/G LWK rs1342328 9 6200785 0.028 1 HapMap HapMap A 0.9 G 0.1 A/G MKK rs1342328 9 6200785 0.012 1 HapMap HapMap A 0.916 G 0.084 A/G GIH rs1381038 9 6323156 0.001 1 HapMap HapMap C 0.017 A 0.983 C/A ASW rs1381038 9 6323156 0.04 0.626 HapMap HapMap C 0.255 A 0.745 C/A MEX rs1381038 9 6323156 0.001 1 HapMap HapMap C 0.03 A 0.97 C/A MKK rs1381038 9 6323156 0.015 1 HapMap HapMap C 0.101 A 0.899 C/A GIH rs1381039 9 6332682 0.001 1 HapMap HapMap A 0.017 G 0.983 A/G MEX rs1381039 9 6332682 0.001 1 HapMap HapMap A 0.031 G 0.969 A/G CEU rs1381039 9 6332682 0.006 1 HapMap HapMap A 0.031 G 0.969 A/G JPT rs1411341 9 6108982 0.007 1 HapMap HapMap T 0.878 C 0.122 T/C CHB rs1411341 9 6108982 0.017 1 HapMap HapMap T 0.863 C 0.137 T/C CHD rs1411341 9 6108982 0.024 1 HapMap HapMap T 0.833 C 0.167 T/C GIH rs1411341 9 6108982 0.009 1 HapMap HapMap T 0.841 C 0.159 T/C LWK rs1411341 9 6108982 0.048 1 HapMap HapMap T 0.839 C 0.161 T/C CEU rs1411948 9 5972797 0.008 0.921 HapMap HapMap G 0.925 A 0.075 G/A GIH rs1411948 9 5972797 0.001 1 HapMap HapMap G 0.972 A 0.028 G/A LWK rs1411948 9 5972797 0.003 1 HapMap HapMap G 0.989 A 0.011 G/A MKK rs1411948 9 5972797 0.002 1 HapMap HapMap G 0.982 A 0.018 G/A YRI rs1411948 9 5972797 0.015 1 HapMap HapMap G 0.965 A 0.035 G/A ASW rs1412420 9 6245152 0.029 1 HapMap HapMap A 0.075 G 0.925 A/G MEX rs1412420 9 6245152 0.001 1 HapMap HapMap A 0.02 G 0.98 A/G GIH rs1412420 9 6245152 0 1 HapMap HapMap A 0.006 G 0.994 A/G CEU rs1412420 9 6245152 0.004 0.676 HapMap HapMap A 0.044 G 0.956 A/G LWK rs1412424 9 6079129 0.021 0.904 HapMap HapMap G 0.906 C 0.094 G/C MEX rs1412424 9 6079129 0.001 1 HapMap HapMap G 0.99 C 0.01 G/C CHD rs1412426 9 6178652 0.638 0.918 HapMap HapMap A 0.085 C 0.915 A/C GIH rs1412426 9 6178652 0.12 1 HapMap HapMap A 0.284 C 0.716 A/C JPT rs1412426 9 6178652 0.499 0.779 HapMap HapMap A 0.052 C 0.948 A/C ASW rs1412426 9 6178652 0.063 0.705 HapMap HapMap A 0.642 C 0.358 A/C LWK rs1412426 9 6178652 0.04 0.7 HapMap HapMap A 0.756 C 0.244 A/C CHB rs1412426 9 6178652 0.273 0.611 HapMap HapMap A 0.077 C 0.923 A/C CEU rs1412426 9 6178652 0.149 1 HapMap HapMap A 0.336 C 0.664 A/C MKK rs1412426 9 6178652 0.092 0.897 HapMap HapMap A 0.546 C 0.454 A/C MKK rs1478940 9 6058048 0.024 1 HapMap HapMap C 0.85 A 0.15 C/A LWK rs1478940 9 6058048 0.024 1 HapMap HapMap C 0.911 A 0.089 C/A MEX rs1478940 9 6058048 0 1 HapMap HapMap C 0.99 A 0.01 C/A ASW rs1478940 9 6058048 0.019 1 HapMap HapMap C 0.925 A 0.075 C/A CEU rs1478940 9 6058048 0.001 1 HapMap HapMap C 0.991 A 0.009 C/A ASW rs1551761 9 6303518 0.046 1 HapMap HapMap C 0.17 G 0.83 C/G GIH rs1551761 9 6303518 0.001 1 HapMap HapMap C 0.017 G 0.983 C/G MKK rs1551761 9 6303518 0.015 1 HapMap HapMap C 0.101 G 0.899 C/G MEX rs1551761 9 6303518 0.001 1 HapMap HapMap C 0.031 G 0.969 C/G ASW rs16924068 9 6154596 0.015 1 HapMap HapMap C 0.971 T 0.029 C/T YRI rs16924068 9 6154596 0.019 1 HapMap HapMap C 0.932 T 0.068 C/T YRI rs16924081 9 6159135 0.038 1 HapMap HapMap G 0.889 A 0.111 G/A MKK rs16924081 9 6159135 0.018 1 HapMap HapMap G 0.88 A 0.12 G/A LWK rs16924081 9 6159135 0.039 0.967 HapMap HapMap G 0.856 A 0.144 G/A MEX rs16924081 9 6159135 0.001 1 HapMap HapMap G 0.97 A 0.03 G/A GIH rs16924081 9 6159135 0.002 1 HapMap HapMap G 0.96 A 0.04 G/A ASW rs16924081 9 6159135 0.024 1 HapMap HapMap G 0.925 A 0.075 G/A CHD rs16924081 9 6159135 0.101 1 HapMap HapMap G 0.988 A 0.012 G/A CHB rs16924081 9 6159135 0.232 1 HapMap HapMap G 0.976 A 0.024 G/A MKK rs16924144 9 6211246 0.032 0.774 HapMap HapMap T 0.717 C 0.283 T/C JPT rs16924144 9 6211246 0.015 1 HapMap HapMap T 0.75 C 0.25 T/C LWK rs16924144 9 6211246 0.035 1 HapMap HapMap T 0.878 C 0.122 T/C CEU rs16924144 9 6211246 0.05 1 HapMap HapMap T 0.69 C 0.31 T/C GIH rs16924144 9 6211246 0.023 1 HapMap HapMap T 0.676 C 0.324 T/C YRI rs16924161 9 6220912 0.012 1 HapMap HapMap T 0.969 C 0.031 T/C ASW rs16924161 9 6220912 0.014 1 HapMap HapMap T 0.953 C 0.047 T/C MEX rs16924161 9 6220912 0.008 1 HapMap HapMap T 0.89 C 0.11 T/C JPT rs16924161 9 6220912 0.073 1 HapMap HapMap T 0.506 C 0.494 T/C LWK rs16924161 9 6220912 0.022 1 HapMap HapMap T 0.994 C 0.006 T/C CHD rs16924161 9 6220912 0.061 1 HapMap HapMap T 0.659 C 0.341 T/C ASW rs16924241 9 6246144 0.008 0.741 HapMap HapMap C 0.962 G 0.038 C/G LWK rs16924241 9 6246144 0.007 0.831 HapMap HapMap C 0.961 G 0.039 C/G ASW rs16924243 9 6247054 0.086 1 HapMap HapMap T 0.811 C 0.189 T/C CEU rs16924243 9 6247054 0.004 1 HapMap HapMap T 0.965 C 0.035 T/C GIH rs16924243 9 6247054 0.001 1 HapMap HapMap T 0.989 C 0.011 T/C MEX rs16924243 9 6247054 0.001 1 HapMap HapMap T 0.97 C 0.03 T/C MKK rs16924243 9 6247054 0.026 1 HapMap HapMap T 0.839 C 0.161 T/C YRI rs16924243 9 6247054 0.059 0.767 HapMap HapMap T 0.73 C 0.27 T/C YRI rs16924277 9 6269324 0.015 1 HapMap HapMap C 0.965 T 0.035 C/T MKK rs16924277 9 6269324 0 1 HapMap HapMap C 0.997 T 0.003 C/T ASW rs16924277 9 6269324 0.034 1 HapMap HapMap C 0.925 T 0.075 C/T LWK rs16924301 9 6296093 0.004 1 HapMap HapMap A 0.983 G 0.017 A/G JPT rs16924301 9 6296093 0.004 0.615 HapMap HapMap A 0.831 G 0.169 A/G ASW rs16924301 9 6296093 0.176 1 HapMap HapMap A 0.943 G 0.057 A/G GIH rs16924301 9 6296093 0.016 1 HapMap HapMap A 0.744 G 0.256 A/G YRI rs16924301 9 6296093 0.06 1 HapMap HapMap A 0.96 G 0.04 A/G MKK rs16924301 9 6296093 0.004 1 HapMap HapMap A 0.972 G 0.028 A/G MKK rs16924356 9 6321610 0.017 0.656 HapMap HapMap G 0.776 A 0.224 G/A MEX rs16924356 9 6321610 0.013 1 HapMap HapMap G 0.82 A 0.18 G/A ASW rs16924356 9 6321610 0.041 0.663 HapMap HapMap G 0.736 A 0.264 G/A GIH rs16924356 9 6321610 0.008 1 HapMap HapMap G 0.864 A 0.136 G/A CEU rs16924356 9 6321610 0.052 1 HapMap HapMap G 0.717 A 0.283 G/A MKK rs16924360 9 6321840 0.014 1 HapMap HapMap T 0.906 G 0.094 T/G MEX rs16924360 9 6321840 0.001 1 HapMap HapMap T 0.98 G 0.02 T/G LWK rs16924360 9 6321840 0.02 0.668 HapMap HapMap T 0.85 G 0.15 T/G GIH rs16924360 9 6321840 0 1 HapMap HapMap T 0.994 G 0.006 T/G MKK rs16924434 9 6348334 0.005 1 HapMap HapMap A 0.965 G 0.035 A/G MEX rs16924434 9 6348334 0.009 1 HapMap HapMap A 0.87 G 0.13 A/G CHD rs16924434 9 6348334 0.047 1 HapMap HapMap A 0.718 G 0.282 A/G CHB rs16924434 9 6348334 0.033 1 HapMap HapMap A 0.738 G 0.262 A/G CEU rs16924434 9 6348334 0.011 1 HapMap HapMap A 0.898 G 0.102 A/G ASW rs16924434 9 6348334 0 1 HapMap HapMap A 0.991 G 0.009 A/G CEU rs17498168 9 6227186 0.378 0.811 HapMap HapMap T 0.965 C 0.035 T/C MEX rs17498196 9 6227547 0.006 0.77 HapMap HapMap A 0.87 C 0.13 A/C GIH rs17498196 9 6227547 0.007 1 HapMap HapMap A 0.875 C 0.125 A/C MKK rs17498196 9 6227547 0.002 1 HapMap HapMap A 0.983 C 0.017 A/C ASW rs17498196 9 6227547 0.014 1 HapMap HapMap A 0.906 C 0.094 A/C CEU rs17498196 9 6227547 0.041 1 HapMap HapMap A 0.765 C 0.235 A/C CEU rs1755531 9 6114250 0.013 1 HapMap HapMap T 0.129 G 0.871 T/G CHB rs1755531 9 6114250 0.002 1 HapMap HapMap T 0.03 G 0.97 T/G GIH rs1755531 9 6114250 0.016 1 HapMap HapMap T 0.25 G 0.75 T/G MEX rs1755531 9 6114250 0.009 1 HapMap HapMap T 0.13 G 0.87 T/G MKK rs1755531 9 6114250 0.032 1 HapMap HapMap T 0.186 G 0.814 T/G ASW rs17580721 9 6007252 0.004 1 HapMap HapMap A 0.962 G 0.038 A/G MEX rs17580721 9 6007252 0.003 1 HapMap HapMap A 0.96 G 0.04 A/G CEU rs17580721 9 6007252 0.016 1 HapMap HapMap A 0.832 G 0.168 A/G CHD rs17580721 9 6007252 0.001 1 HapMap HapMap A 0.994 G 0.006 A/G GIH rs17580721 9 6007252 0.003 1 HapMap HapMap A 0.943 G 0.057 A/G CHD rs17705436 9 6300908 0.001 1 HapMap HapMap C 0.994 G 0.006 C/G GIH rs17705436 9 6300908 0.007 1 HapMap HapMap C 0.869 G 0.131 C/G ASW rs17705436 9 6300908 0.014 1 HapMap HapMap C 0.896 G 0.104 C/G CEU rs17705436 9 6300908 0.043 1 HapMap HapMap C 0.743 G 0.257 C/G MKK rs17705436 9 6300908 0.002 1 HapMap HapMap C 0.986 G 0.014 C/G GIH rs17756142 9 6291578 0.007 1 HapMap HapMap A 0.875 C 0.125 A/C MEX rs17756142 9 6291578 0.009 0.925 HapMap HapMap A 0.86 C 0.14 A/C ASW rs17756142 9 6291578 0.014 1 HapMap HapMap A 0.896 C 0.104 A/C MKK rs17756142 9 6291578 0.002 1 HapMap HapMap A 0.986 C 0.014 A/C CHD rs17756142 9 6291578 0.004 1 HapMap HapMap A 0.97 C 0.03 A/C CEU rs17756142 9 6291578 0.043 1 HapMap HapMap A 0.735 C 0.265 A/C GIH rs1888703 9 5973508 0.008 1 HapMap HapMap T 0.132 G 0.868 T/G CHB rs1888703 9 5973508 0.116 0.758 HapMap HapMap T 0.315 G 0.685 T/G CEU rs1888909 9 6187392 0.208 1 HapMap HapMap T 0.288 C 0.712 T/C ASW rs1888909 9 6187392 0.11 0.646 HapMap HapMap T 0.462 C 0.538 T/C CHB rs1888909 9 6187392 0.232 1 HapMap HapMap T 0.036 C 0.964 T/C CHD rs1888909 9 6187392 0.417 1 HapMap HapMap T 0.047 C 0.953 T/C YRI rs1888909 9 6187392 0.212 0.89 HapMap HapMap T 0.535 C 0.465 T/C GIH rs1888909 9 6187392 0.151 1 HapMap HapMap T 0.239 C 0.761 T/C JPT rs1888909 9 6187392 0.585 1 HapMap HapMap T 0.035 C 0.965 T/C MKK rs1888909 9 6187392 0.148 0.699 HapMap HapMap T 0.308 C 0.692 T/C ASW rs1891385 9 6209845 0 1 HapMap HapMap A 0.991 C 0.009 A/C CEU rs1891385 9 6209845 0.012 1 HapMap HapMap A 0.894 C 0.106 A/C CHD rs1891385 9 6209845 0.035 1 HapMap HapMap A 0.771 C 0.229 A/C LWK rs1891385 9 6209845 0.045 1 HapMap HapMap A 0.989 C 0.011 A/C MEX rs1891385 9 6209845 0.005 1 HapMap HapMap A 0.93 C 0.07 A/C MKK rs1891385 9 6209845 0.006 1 HapMap HapMap A 0.955 C 0.045 A/C JPT rs189309 9 6101393 0.014 1 HapMap HapMap T 0.215 C 0.785 T/C CHB rs189309 9 6101393 0.063 0.65 HapMap HapMap T 0.393 C 0.607 T/C GIH rs189309 9 6101393 0.038 1 HapMap HapMap T 0.557 C 0.443 T/C MEX rs189309 9 6101393 0.022 0.609 HapMap HapMap T 0.48 C 0.52 T/C CEU rs1929994 9 6214308 0.007 1 HapMap HapMap T 0.956 C 0.044 T/C LWK rs1929994 9 6214308 0.048 1 HapMap HapMap T 0.839 C 0.161 T/C MKK rs1929994 9 6214308 0.024 0.938 HapMap HapMap T 0.831 C 0.169 T/C CHB rs1970089 9 6114359 0.002 1 HapMap HapMap T 0.03 C 0.97 T/C GIH rs1970089 9 6114359 0.016 1 HapMap HapMap T 0.241 C 0.759 T/C MEX rs1970089 9 6114359 0.009 1 HapMap HapMap T 0.14 C 0.86 T/C CEU rs1970089 9 6114359 0.013 1 HapMap HapMap T 0.125 C 0.875 T/C MKK rs1970089 9 6114359 0.033 1 HapMap HapMap T 0.191 C 0.809 T/C MEX rs1993912 9 5977781 0.001 1 HapMap HapMap A 0.98 C 0.02 A/C CHB rs1993912 9 5977781 0.004 1 HapMap HapMap A 0.97 C 0.03 A/C GIH rs1993912 9 5977781 0.004 1 HapMap HapMap A 0.92 C 0.08 A/C LWK rs1993912 9 5977781 0.03 1 HapMap HapMap A 0.894 C 0.106 A/C ASW rs2000199 9 6258893 0.158 0.705 HapMap HapMap G 0.509 A 0.491 G/A CEU rs2000199 9 6258893 0.013 1 HapMap HapMap G 0.075 A 0.925 G/A GIH rs2000199 9 6258893 0.001 1 HapMap HapMap G 0.017 A 0.983 G/A MEX rs2000199 9 6258893 0.005 1 HapMap HapMap G 0.09 A 0.91 G/A MKK rs2000199 9 6258893 0.043 0.752 HapMap HapMap G 0.36 A 0.64 G/A ASW rs2026991 9 6256440 0.158 0.705 HapMap HapMap A 0.509 G 0.491 A/G CEU rs2026991 9 6256440 0.013 1 HapMap HapMap A 0.075 G 0.925 A/G GIH rs2026991 9 6256440 0.001 1 HapMap HapMap A 0.017 G 0.983 A/G MEX rs2026991 9 6256440 0.005 1 HapMap HapMap A 0.09 G 0.91 A/G MKK rs2026991 9 6256440 0.045 0.76 HapMap HapMap A 0.367 G 0.633 A/G ASW rs2039386 9 6258204 0.146 0.794 HapMap HapMap G 0.396 C 0.604 G/C CEU rs2039386 9 6258204 0.013 1 HapMap HapMap G 0.075 C 0.925 G/C GIH rs2039386 9 6258204 0.001 1 HapMap HapMap G 0.017 C 0.983 G/C MEX rs2039386 9 6258204 0.004 1 HapMap HapMap G 0.08 C 0.92 G/C JPT rs2054314 9 6281125 0.001 1 HapMap HapMap T 0.006 C 0.994 T/C MEX rs2054314 9 6281125 0.003 1 HapMap HapMap T 0.07 C 0.93 T/C MKK rs2054314 9 6281125 0.016 0.608 HapMap HapMap T 0.236 C 0.764 T/C CHB rs2054314 9 6281125 0.001 1 HapMap HapMap T 0.012 C 0.988 T/C CEU rs2054314 9 6281125 0.014 1 HapMap HapMap T 0.078 C 0.922 T/C GIH rs2054314 9 6281125 0.001 1 HapMap HapMap T 0.028 C 0.972 T/C CEU rs2066362 9 6209176 0.026 1 HapMap HapMap G 0.835 T 0.165 G/T GIH rs2066362 9 6209176 0.013 1 HapMap HapMap G 0.784 T 0.216 G/T MEX rs2066362 9 6209176 0.014 1 HapMap HapMap G 0.82 T 0.18 G/T JPT rs2069264 9 6124787 0.007 1 HapMap HapMap T 0.878 C 0.122 T/C LWK rs2069264 9 6124787 0.033 1 HapMap HapMap T 0.883 C 0.117 T/C YRI rs2069264 9 6124787 0.028 0.679 HapMap HapMap T 0.839 C 0.161 T/C ASW rs2069264 9 6124787 0.041 0.663 HapMap HapMap T 0.764 C 0.236 T/C CHB rs2069264 9 6124787 0.018 1 HapMap HapMap T 0.857 C 0.143 T/C GIH rs2069264 9 6124787 0.008 1 HapMap HapMap T 0.852 C 0.148 T/C CHD rs2069264 9 6124787 0.025 1 HapMap HapMap T 0.824 C 0.176 T/C CEU rs2169282 9 6340235 0.089 1 HapMap HapMap A 0.389 G 0.611 A/G CHD rs2169282 9 6340235 0.047 1 HapMap HapMap A 0.282 G 0.718 A/G GIH rs2169282 9 6340235 0.03 1 HapMap HapMap A 0.386 G 0.614 A/G MEX rs2169282 9 6340235 0.02 1 HapMap HapMap A 0.26 G 0.74 A/G MKK rs2169282 9 6340235 0.067 0.761 HapMap HapMap A 0.462 G 0.538 A/G CHB rs2169282 9 6340235 0.033 1 HapMap HapMap A 0.262 G 0.738 A/G CEU rs2210463 9 6217752 0.287 1 HapMap HapMap A 0.699 G 0.301 A/G GIH rs2210463 9 6217752 0.094 1 HapMap HapMap A 0.665 G 0.335 A/G JPT rs2210463 9 6217752 0.056 1 HapMap HapMap A 0.482 G 0.518 A/G MKK rs2210463 9 6217752 0.099 0.729 HapMap HapMap A 0.58 G 0.42 A/G CEU rs2210464 9 6213903 0.446 1 HapMap HapMap A 0.757 T 0.243 A/T MKK rs2210464 9 6213903 0.187 0.626 HapMap HapMap A 0.78 T 0.22 A/T JPT rs2210464 9 6213903 0.052 1 HapMap HapMap A 0.477 T 0.523 A/T MKK rs2290913 9 6320321 0 1 HapMap HapMap T 0.996 A 0.004 T/A JPT rs2290913 9 6320321 0.006 1 HapMap HapMap T 0.936 A 0.064 T/A CHD rs2290913 9 6320321 0.014 1 HapMap HapMap T 0.894 A 0.106 T/A ASW rs2295843 9 6318871 0.004 1 HapMap HapMap G 0.991 A 0.009 G/A CHB rs2295843 9 6318871 0.115 1 HapMap HapMap G 0.994 A 0.006 G/A JPT rs2295843 9 6318871 0.19 1 HapMap HapMap G 0.994 A 0.006 G/A MEX rs2295843 9 6318871 0 1 HapMap HapMap G 0.99 A 0.01 G/A CHD rs2295843 9 6318871 0.256 1 HapMap HapMap G 0.971 A 0.029 G/A CHD rs2381413 9 6157017 0.177 0.8 HapMap HapMap C 0.7 G 0.3 C/G GIH rs2381413 9 6157017 0.075 1 HapMap HapMap C 0.614 G 0.386 C/G JPT rs2381413 9 6157017 0.163 0.718 HapMap HapMap C 0.831 G 0.169 C/G MEX rs2381413 9 6157017 0.052 0.693 HapMap HapMap C 0.66 G 0.34 C/G MKK rs2381413 9 6157017 0.064 0.796 HapMap HapMap C 0.427 G 0.573 C/G CEU rs2381413 9 6157017 0.1 1 HapMap HapMap C 0.54 G 0.46 C/G CHB rs2381413 9 6157017 0.151 0.776 HapMap HapMap C 0.69 G 0.31 C/G ASW rs2381422 9 6271211 0.058 1 HapMap HapMap C 0.123 T 0.877 C/T LWK rs2381422 9 6271211 0.096 0.675 HapMap HapMap C 0.05 T 0.95 C/T GIH rs2381422 9 6271211 0.001 1 HapMap HapMap C 0.017 T 0.983 C/T MKK rs2381422 9 6271211 0.002 1 HapMap HapMap C 0.014 T 0.986 C/T MEX rs2381422 9 6271211 0.001 1 HapMap HapMap C 0.02 T 0.98 C/T CEU rs2381438 9 6332855 0.006 1 HapMap HapMap G 0.031 A 0.969 G/A GIH rs2381438 9 6332855 0.001 1 HapMap HapMap G 0.017 A 0.983 G/A MEX rs2381438 9 6332855 0.001 1 HapMap HapMap G 0.031 A 0.969 G/A ASW rs2381438 9 6332855 0.046 0.621 HapMap HapMap G 0.274 A 0.726 G/A CHD rs2890704 9 6174165 0.417 1 HapMap HapMap T 0.047 C 0.953 T/C GIH rs2890704 9 6174165 0.445 1 HapMap HapMap T 0.097 C 0.903 T/C MEX rs2890704 9 6174165 0.587 1 HapMap HapMap T 0.03 C 0.97 T/C MKK rs2890704 9 6174165 0.484 0.851 HapMap HapMap T 0.168 C 0.832 T/C YRI rs2890704 9 6174165 0.567 0.886 HapMap HapMap T 0.292 C 0.708 T/C JPT rs2890704 9 6174165 0.585 1 HapMap HapMap T 0.035 C 0.965 T/C LWK rs2890704 9 6174165 0.499 0.767 HapMap HapMap T 0.228 C 0.772 T/C CEU rs2890704 9 6174165 0.683 1 HapMap HapMap T 0.119 C 0.881 T/C CHB rs2890704 9 6174165 0.232 1 HapMap HapMap T 0.036 C 0.964 T/C ASW rs2890704 9 6174165 0.541 0.802 HapMap HapMap T 0.198 C 0.802 T/C ASW rs2890707 9 6321324 0.04 0.626 HapMap HapMap A 0.255 G 0.745 A/G GIH rs2890707 9 6321324 0.001 1 HapMap HapMap A 0.017 G 0.983 A/G MEX rs2890707 9 6321324 0.001 1 HapMap HapMap A 0.03 G 0.97 A/G MKK rs2890707 9 6321324 0.015 1 HapMap HapMap A 0.101 G 0.899 A/G MEX rs340890 9 6090169 0.016 1 HapMap HapMap C 0.735 T 0.265 C/T MKK rs340890 9 6090169 0.019 0.615 HapMap HapMap C 0.724 T 0.276 C/T CHD rs340890 9 6090169 0.014 0.612 HapMap HapMap C 0.759 T 0.241 C/T YRI rs340890 9 6090169 0.018 1 HapMap HapMap C 0.942 T 0.058 C/T MEX rs340892 9 6088662 0.022 0.609 HapMap HapMap T 0.48 G 0.52 T/G GIH rs340892 9 6088662 0.027 1 HapMap HapMap T 0.636 G 0.364 T/G CHB rs340892 9 6088662 0.063 0.65 HapMap HapMap T 0.392 G 0.608 T/G MEX rs340899 9 6099080 0.024 0.617 HapMap HapMap C 0.47 T 0.53 C/T CHB rs340899 9 6099080 0.063 0.65 HapMap HapMap C 0.399 T 0.601 C/T GIH rs340899 9 6099080 0.034 1 HapMap HapMap C 0.585 T 0.415 C/T MEX rs340900 9 6098921 0.022 0.609 HapMap HapMap T 0.48 C 0.52 T/C CHB rs340900 9 6098921 0.063 0.65 HapMap HapMap T 0.393 C 0.607 T/C GIH rs340900 9 6098921 0.034 1 HapMap HapMap T 0.585 C 0.415 T/C MKK rs340904 9 6096779 0.029 1 HapMap HapMap C 0.175 A 0.825 C/A CHB rs340904 9 6096779 0.002 1 HapMap HapMap C 0.03 A 0.97 C/A GIH rs340904 9 6096779 0.015 1 HapMap HapMap C 0.244 A 0.756 C/A CEU rs340904 9 6096779 0.013 1 HapMap HapMap C 0.124 A 0.876 C/A MEX rs340904 9 6096779 0.009 1 HapMap HapMap C 0.13 A 0.87 C/A CEU rs340908 9 6118897 0.013 1 HapMap HapMap T 0.124 C 0.876 T/C CHB rs340908 9 6118897 0.002 1 HapMap HapMap T 0.03 C 0.97 T/C GIH rs340908 9 6118897 0.015 1 HapMap HapMap T 0.244 C 0.756 T/C MKK rs340908 9 6118897 0.029 1 HapMap HapMap T 0.175 C 0.825 T/C MEX rs340908 9 6118897 0.009 1 HapMap HapMap T 0.13 C 0.87 T/C MEX rs340921 9 6080160 0.009 1 HapMap HapMap G 0.133 T 0.867 G/T MKK rs340921 9 6080160 0.027 1 HapMap HapMap G 0.164 T 0.836 G/T GIH rs340921 9 6080160 0.015 1 HapMap HapMap G 0.244 T 0.756 G/T CHB rs340921 9 6080160 0.004 1 HapMap HapMap G 0.036 T 0.964 G/T CEU rs340921 9 6080160 0.013 1 HapMap HapMap G 0.125 T 0.875 G/T CHB rs340923 9 6078628 0.003 1 HapMap HapMap G 0.03 A 0.97 G/A GIH rs340923 9 6078628 0.015 1 HapMap HapMap G 0.239 A 0.761 G/A MEX rs340923 9 6078628 0.009 1 HapMap HapMap G 0.14 A 0.86 G/A MKK rs340923 9 6078628 0.018 0.692 HapMap HapMap G 0.22 A 0.78 G/A CEU rs340923 9 6078628 0.013 1 HapMap HapMap G 0.124 A 0.876 G/A YRI rs340930 9 6076676 0.05 0.642 HapMap HapMap T 0.054 G 0.946 T/G LWK rs340930 9 6076676 0.161 1 HapMap HapMap T 0.039 G 0.961 T/G ASW rs340930 9 6076676 0.062 1 HapMap HapMap T 0.01 G 0.99 T/G CHB rs340933 9 6075078 0.004 1 HapMap HapMap T 0.037 G 0.963 T/G GIH rs340933 9 6075078 0.015 1 HapMap HapMap T 0.241 G 0.759 T/G MEX rs340933 9 6075078 0.01 1 HapMap HapMap T 0.135 G 0.865 T/G CEU rs340933 9 6075078 0.014 1 HapMap HapMap T 0.125 G 0.875 T/G CEU rs340934 9 6071804 0.014 1 HapMap HapMap G 0.119 T 0.881 G/T JPT rs340934 9 6071804 0.001 1 HapMap HapMap G 0.017 T 0.983 G/T GIH rs340934 9 6071804 0.013 1 HapMap HapMap G 0.216 T 0.784 G/T MEX rs340934 9 6071804 0.008 1 HapMap HapMap G 0.13 T 0.87 G/T MKK rs340934 9 6071804 0.027 1 HapMap HapMap G 0.163 T 0.837 G/T CHD rs343470 9 6034937 0.035 0.787 HapMap HapMap T 0.324 C 0.676 T/C LWK rs343470 9 6034937 0.015 1 HapMap HapMap T 0.056 C 0.944 T/C CHB rs343471 9 6033593 0.122 0.6 HapMap HapMap T 0.78 C 0.22 T/C ASW rs343471 9 6033593 0.026 1 HapMap HapMap T 0.923 C 0.077 T/C CEU rs343471 9 6033593 0.001 1 HapMap HapMap T 0.991 C 0.009 T/C CHB rs343473 9 6064936 0.005 1 HapMap HapMap A 0.054 G 0.946 A/G JPT rs343473 9 6064936 0.001 1 HapMap HapMap A 0.023 G 0.977 A/G MEX rs343474 9 6063843 0.027 0.632 HapMap HapMap A 0.44 G 0.56 A/G CHD rs343474 9 6063843 0.024 1 HapMap HapMap A 0.163 G 0.837 A/G JPT rs343474 9 6063843 0.008 1 HapMap HapMap A 0.145 G 0.855 A/G CHB rs343474 9 6063843 0.017 0.889 HapMap HapMap A 0.179 G 0.821 A/G CEU rs343477 9 5999761 0.097 0.67 HapMap HapMap G 0.712 A 0.288 G/A MEX rs343477 9 5999761 0.053 0.671 HapMap HapMap G 0.68 A 0.32 G/A CEU rs343484 9 6015606 0.058 0.609 HapMap HapMap G 0.659 A 0.341 G/A MEX rs343484 9 6015606 0.088 1 HapMap HapMap G 0.612 A 0.388 G/A CEU rs343485 9 6016180 0.058 0.609 HapMap HapMap T 0.659 G 0.341 T/G MEX rs343485 9 6016180 0.097 1 HapMap HapMap T 0.633 G 0.367 T/G GIH rs343485 9 6016180 0.035 1 HapMap HapMap T 0.426 G 0.574 T/G CEU rs343489 9 6054299 0.016 1 HapMap HapMap C 0.858 G 0.142 C/G CHB rs343489 9 6054299 0.004 1 HapMap HapMap C 0.958 G 0.042 C/G GIH rs343489 9 6054299 0.015 1 HapMap HapMap C 0.761 G 0.239 C/G MEX rs343489 9 6054299 0.009 1 HapMap HapMap C 0.87 G 0.13 C/G MKK rs343489 9 6054299 0.023 1 HapMap HapMap C 0.857 G 0.143 C/G CEU rs343491 9 6054640 0.016 1 HapMap HapMap G 0.858 C 0.142 G/C CHB rs343491 9 6054640 0.004 1 HapMap HapMap G 0.958 C 0.042 G/C GIH rs343491 9 6054640 0.015 1 HapMap HapMap G 0.761 C 0.239 G/C MEX rs343491 9 6054640 0.009 1 HapMap HapMap G 0.87 C 0.13 G/C MKK rs343491 9 6054640 0.023 1 HapMap HapMap G 0.857 C 0.143 G/C GIH rs343494 9 6060342 0.029 1 HapMap HapMap C 0.381 T 0.619 C/T MEX rs343494 9 6060342 0.026 0.624 HapMap HapMap C 0.54 T 0.46 C/T CHD rs343497 9 6057744 0.024 1 HapMap HapMap C 0.829 T 0.171 C/T JPT rs343497 9 6057744 0.007 1 HapMap HapMap C 0.866 T 0.134 C/T MEX rs343497 9 6057744 0.027 0.632 HapMap HapMap C 0.56 T 0.44 C/T CHB rs343497 9 6057744 0.01 0.699 HapMap HapMap C 0.833 T 0.167 C/T GIH rs343500 9 6005011 0.006 1 HapMap HapMap T 0.898 C 0.102 T/C MEX rs343500 9 6005011 0.001 1 HapMap HapMap T 0.97 C 0.03 T/C CHB rs343500 9 6005011 0.136 0.613 HapMap HapMap T 0.78 C 0.22 T/C CEU rs343500 9 6005011 0.001 1 HapMap HapMap T 0.991 C 0.009 T/C CHB rs371454 9 6068614 0.004 1 HapMap HapMap C 0.042 T 0.958 C/T GIH rs371454 9 6068614 0.015 1 HapMap HapMap C 0.244 T 0.756 C/T MEX rs371454 9 6068614 0.009 1 HapMap HapMap C 0.13 T 0.87 C/T MKK rs371454 9 6068614 0.023 1 HapMap HapMap C 0.147 T 0.853 C/T YRI rs371454 9 6068614 0.157 0.63 HapMap HapMap C 0.133 T 0.867 C/T CEU rs371454 9 6068614 0.014 1 HapMap HapMap C 0.133 T 0.867 C/T CHB rs376382 9 6124999 0.02 1 HapMap HapMap C 0.167 T 0.833 C/T CHD rs376382 9 6124999 0.026 1 HapMap HapMap C 0.182 T 0.818 C/T GIH rs376382 9 6124999 0.031 1 HapMap HapMap C 0.392 T 0.608 C/T JPT rs376382 9 6124999 0.007 1 HapMap HapMap C 0.122 T 0.878 C/T CEU rs380568 9 6045531 0.016 1 HapMap HapMap T 0.863 C 0.137 T/C CHB rs380568 9 6045531 0.004 1 HapMap HapMap T 0.958 C 0.042 T/C GIH rs380568 9 6045531 0.016 1 HapMap HapMap T 0.75 C 0.25 T/C MEX rs380568 9 6045531 0.009 1 HapMap HapMap T 0.87 C 0.13 T/C MKK rs380568 9 6045531 0.012 1 HapMap HapMap T 0.918 C 0.082 T/C ASW rs3847261 9 6299188 0.101 1 HapMap HapMap T 0.25 A 0.75 T/A GIH rs3847261 9 6299188 0.001 1 HapMap HapMap T 0.017 A 0.983 T/A MEX rs3847261 9 6299188 0.001 1 HapMap HapMap T 0.031 A 0.969 T/A MKK rs3847261 9 6299188 0.018 1 HapMap HapMap T 0.115 A 0.885 T/A ASW rs3847262 9 6318947 0.093 1 HapMap HapMap T 0.264 C 0.736 T/C GIH rs3847262 9 6318947 0.001 1 HapMap HapMap T 0.017 C 0.983 T/C MEX rs3847262 9 6318947 0.001 1 HapMap HapMap T 0.03 C 0.97 T/C MKK rs3847262 9 6318947 0.016 1 HapMap HapMap T 0.108 C 0.892 T/C MEX rs386775 9 6134486 0.002 1 HapMap HapMap T 0.03 C 0.97 T/C CHB rs386775 9 6134486 0.001 1 HapMap HapMap T 0.012 C 0.988 T/C GIH rs386775 9 6134486 0.011 1 HapMap HapMap T 0.188 C 0.812 T/C MKK rs386775 9 6134486 0.023 0.886 HapMap HapMap T 0.178 C 0.822 T/C CHD rs386880 9 6134333 0.052 1 HapMap HapMap C 0.304 T 0.696 C/T GIH rs386880 9 6134333 0.026 1 HapMap HapMap C 0.352 T 0.648 C/T JPT rs386880 9 6134333 0.011 1 HapMap HapMap C 0.188 T 0.812 C/T MKK rs386880 9 6134333 0.05 0.666 HapMap HapMap C 0.455 T 0.545 C/T MEX rs387149 9 6135022 0.016 1 HapMap HapMap C 0.22 T 0.78 C/T LWK rs387149 9 6135022 0.237 0.804 HapMap HapMap C 0.386 T 0.614 C/T CHB rs387149 9 6135022 0.036 0.604 HapMap HapMap C 0.494 T 0.506 C/T CEU rs387149 9 6135022 0.031 1 HapMap HapMap C 0.308 T 0.692 C/T CHB rs3939286 9 6200099 0.232 1 HapMap HapMap T 0.036 C 0.964 T/C CHD rs3939286 9 6200099 0.417 1 HapMap HapMap T 0.047 C 0.953 T/C YRI rs3939286 9 6200099 0.206 0.895 HapMap HapMap T 0.54 C 0.46 T/C MKK rs3939286 9 6200099 0.141 0.817 HapMap HapMap T 0.391 C 0.609 T/C GIH rs3939286 9 6200099 0.151 1 HapMap HapMap T 0.239 C 0.761 T/C JPT rs3939286 9 6200099 0.585 1 HapMap HapMap T 0.029 C 0.971 T/C ASW rs3939286 9 6200099 0.136 0.676 HapMap HapMap T 0.462 C 0.538 T/C CEU rs3939286 9 6200099 0.208 1 HapMap HapMap T 0.283 C 0.717 T/C ASW rs3955036 9 6271660 0.019 1 HapMap HapMap G 0.953 A 0.047 G/A GIH rs3955036 9 6271660 0 1 HapMap HapMap G 0.994 A 0.006 G/A MEX rs3955036 9 6271660 0.001 1 HapMap HapMap G 0.98 A 0.02 G/A MKK rs3955036 9 6271660 0.001 1 HapMap HapMap G 0.989 A 0.011 G/A CHB rs406322 9 6136121 0.02 1 HapMap HapMap C 0.839 T 0.161 C/T CHD rs406322 9 6136121 0.03 1 HapMap HapMap C 0.8 T 0.2 C/T GIH rs406322 9 6136121 0.013 1 HapMap HapMap C 0.784 T 0.216 C/T JPT rs406322 9 6136121 0.008 1 HapMap HapMap C 0.888 T 0.112 C/T CEU rs406322 9 6136121 0.035 1 HapMap HapMap C 0.748 T 0.252 C/T ASW rs406322 9 6136121 0.04 1 HapMap HapMap C 0.858 T 0.142 C/T MKK rs409038 9 6124750 0.05 0.611 HapMap HapMap A 0.497 G 0.503 A/G JPT rs409038 9 6124750 0.007 1 HapMap HapMap A 0.134 G 0.866 A/G GIH rs409038 9 6124750 0.031 1 HapMap HapMap A 0.392 G 0.608 A/G CHD rs409038 9 6124750 0.027 1 HapMap HapMap A 0.188 G 0.812 A/G CHB rs409038 9 6124750 0.022 1 HapMap HapMap A 0.173 G 0.827 A/G CHB rs413382 9 6132948 0.001 1 HapMap HapMap C 0.018 A 0.982 C/A MEX rs413382 9 6132948 0.009 1 HapMap HapMap C 0.13 A 0.87 C/A GIH rs413382 9 6132948 0.016 1 HapMap HapMap C 0.25 A 0.75 C/A MKK rs413382 9 6132948 0.016 0.618 HapMap HapMap C 0.232 A 0.768 C/A CEU rs413382 9 6132948 0.019 1 HapMap HapMap C 0.142 A 0.858 C/A GIH rs418014 9 6110336 0.032 1 HapMap HapMap C 0.403 T 0.597 C/T JPT rs418014 9 6110336 0.007 1 HapMap HapMap C 0.134 T 0.866 C/T CHB rs418014 9 6110336 0.02 1 HapMap HapMap C 0.167 T 0.833 C/T CHD rs418014 9 6110336 0.027 1 HapMap HapMap C 0.188 T 0.812 C/T ASW rs4361812 9 6355737 0.014 1 HapMap HapMap C 0.934 A 0.066 C/A CEU rs4361812 9 6355737 0.027 1 HapMap HapMap C 0.841 A 0.159 C/A GIH rs4361812 9 6355737 0.007 1 HapMap HapMap C 0.875 A 0.125 C/A MEX rs4361812 9 6355737 0.005 1 HapMap HapMap C 0.93 A 0.07 C/A GIH rs4367609 9 6155405 1 1 HapMap HapMap C 0.955 T 0.045 C/T MKK rs4367609 9 6155405 0.384 0.842 HapMap HapMap C 0.801 T 0.199 C/T CHD rs4367609 9 6155405 0.473 0.822 HapMap HapMap C 0.923 T 0.077 C/T CEU rs4367609 9 6155405 0.815 1 HapMap HapMap C 0.906 T 0.094 C/T JPT rs4367609 9 6155405 0.585 1 HapMap HapMap C 0.948 T 0.052 C/T MEX rs4367609 9 6155405 0.791 1 HapMap HapMap C 0.95 T 0.05 C/T ASW rs4367609 9 6155405 0.358 0.736 HapMap HapMap C 0.821 T 0.179 C/T CHB rs4395943 9 5981006 0.116 0.758 HapMap HapMap T 0.31 C 0.69 T/C GIH rs4395943 9 5981006 0.006 1 HapMap HapMap T 0.108 C 0.892 T/C CEU rs4395943 9 5981006 0.001 1 HapMap HapMap T 0.009 C 0.991 T/C MEX rs4395943 9 5981006 0.003 1 HapMap HapMap T 0.06 C 0.94 T/C GIH rs448115 9 6124642 0.031 1 HapMap HapMap G 0.392 A 0.608 G/A CHD rs448115 9 6124642 0.029 1 HapMap HapMap G 0.194 A 0.806 G/A JPT rs448115 9 6124642 0.007 1 HapMap HapMap G 0.134 A 0.866 G/A CHB rs448115 9 6124642 0.022 1 HapMap HapMap G 0.173 A 0.827 G/A MKK rs451361 9 6039892 0.003 1 HapMap HapMap G 0.976 A 0.024 G/A ASW rs451361 9 6039892 0.014 1 HapMap HapMap G 0.972 A 0.028 G/A CEU rs451361 9 6039892 0.001 1 HapMap HapMap G 0.991 A 0.009 G/A MEX rs451361 9 6039892 0 1 HapMap HapMap G 0.99 A 0.01 G/A YRI rs451361 9 6039892 0.028 1 HapMap HapMap G 0.929 A 0.071 G/A GIH rs459525 9 6022924 0.035 1 HapMap HapMap C 0.426 T 0.574 C/T MKK rs459525 9 6022924 0.053 0.709 HapMap HapMap C 0.441 T 0.559 C/T MKK rs4740840 9 6219110 0.092 0.724 HapMap HapMap A 0.566 G 0.434 A/G JPT rs4740840 9 6219110 0.052 1 HapMap HapMap A 0.477 G 0.523 A/G GIH rs4740840 9 6219110 0.094 1 HapMap HapMap A 0.665 G 0.335 A/G CEU rs4740840 9 6219110 0.287 1 HapMap HapMap A 0.699 G 0.301 A/G GIH rs4742170 9 6232950 0.085 1 HapMap HapMap C 0.358 T 0.642 C/T JPT rs4742170 9 6232950 0.047 1 HapMap HapMap C 0.541 T 0.459 C/T CEU rs4742170 9 6232950 0.208 1 HapMap HapMap C 0.354 T 0.646 C/T GIH rs544253 9 6132157 0.024 1 HapMap HapMap A 0.665 C 0.335 A/C CHD rs544253 9 6132157 0.022 0.605 HapMap HapMap A 0.659 C 0.341 A/C LWK rs544253 9 6132157 0.022 1 HapMap HapMap A 0.994 C 0.006 A/C MKK rs544253 9 6132157 0.004 1 HapMap HapMap A 0.969 C 0.031 A/C YRI rs544253 9 6132157 0.006 1 HapMap HapMap A 0.978 C 0.022 A/C CHD rs6477029 9 6017931 0.024 1 HapMap HapMap T 0.833 C 0.167 T/C CHB rs6477029 9 6017931 0.01 0.699 HapMap HapMap T 0.821 C 0.179 T/C MEX rs6477029 9 6017931 0.103 1 HapMap HapMap T 0.66 C 0.34 T/C CHB rs6477037 9 6108174 0.017 1 HapMap HapMap T 0.863 C 0.137 T/C LWK rs6477037 9 6108174 0.048 1 HapMap HapMap T 0.839 C 0.161 T/C CHD rs6477037 9 6108174 0.025 1 HapMap HapMap T 0.827 C 0.173 T/C GIH rs6477037 9 6108174 0.009 1 HapMap HapMap T 0.841 C 0.159 T/C JPT rs6477037 9 6108174 0.007 1 HapMap HapMap T 0.876 C 0.124 T/C CHB rs6477040 9 6123074 0.017 1 HapMap HapMap C 0.863 T 0.137 C/T ASW rs6477040 9 6123074 0.048 0.687 HapMap HapMap C 0.736 T 0.264 C/T YRI rs6477040 9 6123074 0.039 0.625 HapMap HapMap C 0.765 T 0.235 C/T JPT rs6477040 9 6123074 0.007 1 HapMap HapMap C 0.878 T 0.122 C/T GIH rs6477040 9 6123074 0.008 1 HapMap HapMap C 0.852 T 0.148 C/T LWK rs6477040 9 6123074 0.054 1 HapMap HapMap C 0.822 T 0.178 C/T CHD rs6477040 9 6123074 0.024 1 HapMap HapMap C 0.829 T 0.171 C/T MKK rs6477040 9 6123074 0.05 1 HapMap HapMap C 0.732 T 0.268 C/T CHB rs694796 9 6122621 0.002 1 HapMap HapMap A 0.03 G 0.97 A/G GIH rs7021445 9 6346657 0.001 1 HapMap HapMap C 0.017 T 0.983 C/T MEX rs7021445 9 6346657 0.001 1 HapMap HapMap C 0.02 T 0.98 C/T CHD rs7024677 9 6076073 0.025 1 HapMap HapMap C 0.824 T 0.176 C/T JPT rs7024677 9 6076073 0.007 1 HapMap HapMap C 0.878 T 0.122 C/T LWK rs7024677 9 6076073 0.007 1 HapMap HapMap C 0.972 T 0.028 C/T MKK rs7024677 9 6076073 0.007 1 HapMap HapMap C 0.948 T 0.052 C/T YRI rs7024677 9 6076073 0.028 1 HapMap HapMap C 0.929 T 0.071 C/T GIH rs7024677 9 6076073 0.015 1 HapMap HapMap C 0.761 T 0.239 C/T JPT rs7025417 9 6230084 0.05 1 HapMap HapMap T 0.465 C 0.535 T/C CEU rs7025417 9 6230084 0.395 1 HapMap HapMap T 0.739 C 0.261 T/C LWK rs7032572 9 6162380 0.056 1 HapMap HapMap A 0.817 G 0.183 A/G MEX rs7032572 9 6162380 0.01 0.973 HapMap HapMap A 0.857 G 0.143 A/G YRI rs7032572 9 6162380 0.041 1 HapMap HapMap A 0.907 G 0.093 A/G ASW rs7032572 9 6162380 0.046 1 HapMap HapMap A 0.846 G 0.154 A/G MKK rs7032572 9 6162380 0.015 1 HapMap HapMap A 0.901 G 0.099 A/G CEU rs7032572 9 6162380 0.024 1 HapMap HapMap A 0.857 G 0.143 A/G GIH rs7032572 9 6162380 0.011 1 HapMap HapMap A 0.812 G 0.188 A/G CEU rs7033258 9 6224131 0.217 1 HapMap HapMap G 0.341 A 0.659 G/A GIH rs7033258 9 6224131 0.085 1 HapMap HapMap G 0.358 A 0.642 G/A JPT rs7033258 9 6224131 0.052 1 HapMap HapMap G 0.529 A 0.471 G/A ASW rs7034801 9 6312415 0.093 1 HapMap HapMap C 0.255 A 0.745 C/A MKK rs7034801 9 6312415 0.016 1 HapMap HapMap C 0.105 A 0.895 C/A GIH rs7034801 9 6312415 0.001 1 HapMap HapMap C 0.017 A 0.983 C/A MEX rs7034801 9 6312415 0.001 1 HapMap HapMap C 0.03 A 0.97 C/A GIH rs7034861 9 6284824 0.001 1 HapMap HapMap C 0.017 T 0.983 C/T MEX rs7034861 9 6284824 0.001 1 HapMap HapMap C 0.03 T 0.97 C/T MKK rs7034861 9 6284824 0.015 1 HapMap HapMap C 0.101 T 0.899 C/T ASW rs7034861 9 6284824 0.046 1 HapMap HapMap C 0.17 T 0.83 C/T CHD rs7035152 9 6036694 0.021 1 HapMap HapMap G 0.847 T 0.153 G/T MEX rs7035152 9 6036694 0.057 0.678 HapMap HapMap G 0.7 T 0.3 G/T CEU rs7035594 9 6115353 0.013 1 HapMap HapMap A 0.124 T 0.876 A/T MEX rs7035594 9 6115353 0.009 1 HapMap HapMap A 0.14 T 0.86 A/T CHB rs7035594 9 6115353 0.002 1 HapMap HapMap A 0.03 T 0.97 A/T GIH rs7035594 9 6115353 0.015 1 HapMap HapMap A 0.244 T 0.756 A/T ASW rs7035741 9 6279504 0.058 1 HapMap HapMap C 0.123 T 0.877 C/T GIH rs7035741 9 6279504 0.001 1 HapMap HapMap C 0.017 T 0.983 C/T LWK rs7035741 9 6279504 0.096 0.675 HapMap HapMap C 0.05 T 0.95 C/T MEX rs7035741 9 6279504 0.001 1 HapMap HapMap C 0.02 T 0.98 C/T MKK rs7035741 9 6279504 0.002 1 HapMap HapMap C 0.014 T 0.986 C/T CEU rs7037276 9 6237430 0.013 1 HapMap HapMap C 0.071 T 0.929 C/T GIH rs7037276 9 6237430 0 1 HapMap HapMap C 0.006 T 0.994 C/T MEX rs7037276 9 6237430 0.001 1 HapMap HapMap C 0.03 T 0.97 C/T LWK rs7037276 9 6237430 0.076 0.637 HapMap HapMap C 0.044 T 0.956 C/T YRI rs7037276 9 6237430 0.122 1 HapMap HapMap C 0.044 T 0.956 C/T MKK rs7037276 9 6237430 0.001 1 HapMap HapMap C 0.011 T 0.989 C/T LWK rs7037534 9 6245511 0.016 1 HapMap HapMap T 0.939 A 0.061 T/A ASW rs7037534 9 6245511 0.04 1 HapMap HapMap T 0.906 A 0.094 T/A LWK rs7040888 9 6103735 0.037 1 HapMap HapMap T 0.872 C 0.128 T/C JPT rs7040888 9 6103735 0.007 1 HapMap HapMap T 0.878 C 0.122 T/C GIH rs7040888 9 6103735 0.01 1 HapMap HapMap T 0.835 C 0.165 T/C CHB rs7040888 9 6103735 0.017 1 HapMap HapMap T 0.863 C 0.137 T/C CHD rs7040888 9 6103735 0.024 1 HapMap HapMap T 0.829 C 0.171 T/C GIH rs7041863 9 6317690 0.001 1 HapMap HapMap A 0.017 C 0.983 A/C MKK rs7041863 9 6317690 0.015 1 HapMap HapMap A 0.101 C 0.899 A/C CHD rs7041863 9 6317690 0.001 1 HapMap HapMap A 0.006 C 0.994 A/C MEX rs7041863 9 6317690 0.001 1 HapMap HapMap A 0.03 C 0.97 A/C ASW rs7041863 9 6317690 0.093 1 HapMap HapMap A 0.245 C 0.755 A/C MEX rs7042561 9 6101473 0.001 1 HapMap HapMap G 0.99 A 0.01 G/A LWK rs7042561 9 6101473 0.021 0.904 HapMap HapMap G 0.906 A 0.094 G/A MKK rs7043459 9 6256718 0.032 1 HapMap HapMap C 0.804 T 0.196 C/T MEX rs7043459 9 6256718 0.003 1 HapMap HapMap C 0.96 T 0.04 C/T MEX rs7045164 9 6317778 0.001 1 HapMap HapMap T 0.02 C 0.98 T/C YRI rs7045164 9 6317778 0.03 1 HapMap HapMap T 0.013 C 0.987 T/C LWK rs7045164 9 6317778 0.138 1 HapMap HapMap T 0.033 C 0.967 T/C GIH rs7045164 9 6317778 0.001 1 HapMap HapMap T 0.017 C 0.983 T/C ASW rs7045164 9 6317778 0.019 1 HapMap HapMap T 0.047 C 0.953 T/C MKK rs7045164 9 6317778 0.001 1 HapMap HapMap T 0.01 C 0.99 T/C ASW rs7046661 9 6199199 0.063 0.705 HapMap HapMap C 0.642 G 0.358 C/G CEU rs7046661 9 6199199 0.143 1 HapMap HapMap C 0.35 G 0.65 C/G MKK rs7046661 9 6199199 0.091 0.898 HapMap HapMap C 0.545 G 0.455 C/G GIH rs7046661 9 6199199 0.116 1 HapMap HapMap C 0.29 G 0.71 C/G CHD rs7046661 9 6199199 0.699 1 HapMap HapMap C 0.077 G 0.923 C/G LWK rs7046661 9 6199199 0.036 0.678 HapMap HapMap C 0.761 G 0.239 C/G CHB rs7046661 9 6199199 0.236 0.705 HapMap HapMap C 0.06 G 0.94 C/G JPT rs7046661 9 6199199 0.499 0.779 HapMap HapMap C 0.047 G 0.953 C/G GIH rs7047921 9 6245319 0.039 1 HapMap HapMap G 0.545 A 0.455 G/A MKK rs7047921 9 6245319 0.057 0.698 HapMap HapMap G 0.535 A 0.465 G/A GIH rs719724 9 6355614 0.033 1 HapMap HapMap T 0.401 A 0.599 T/A MEX rs719724 9 6355614 0.031 1 HapMap HapMap T 0.337 A 0.663 T/A CHD rs719724 9 6355614 0.044 1 HapMap HapMap T 0.271 A 0.729 T/A CHB rs719724 9 6355614 0.031 1 HapMap HapMap T 0.265 A 0.735 T/A CEU rs719724 9 6355614 0.097 1 HapMap HapMap T 0.41 A 0.59 T/A MEX rs721352 9 6322901 0.018 1 HapMap HapMap A 0.24 C 0.76 A/C MKK rs721352 9 6322901 0.049 0.689 HapMap HapMap A 0.434 C 0.566 A/C GIH rs721352 9 6322901 0.009 1 HapMap HapMap A 0.153 C 0.847 A/C CEU rs721352 9 6322901 0.067 1 HapMap HapMap A 0.314 C 0.686 A/C CHB rs7425 9 6001335 0.017 0.889 HapMap HapMap T 0.81 C 0.19 T/C CHD rs7425 9 6001335 0.024 1 HapMap HapMap T 0.829 C 0.171 T/C GIH rs7850988 9 6325760 0.008 1 HapMap HapMap A 0.864 T 0.136 A/T LWK rs7850988 9 6325760 0.033 0.654 HapMap HapMap A 0.767 T 0.233 A/T MEX rs7850988 9 6325760 0.013 1 HapMap HapMap A 0.82 T 0.18 A/T MKK rs7850988 9 6325760 0.016 0.662 HapMap HapMap A 0.79 T 0.21 A/T CEU rs7850988 9 6325760 0.052 1 HapMap HapMap A 0.728 T 0.272 A/T ASW rs7850988 9 6325760 0.035 0.635 HapMap HapMap A 0.745 T 0.255 A/T GIH rs7851246 9 6352365 0.009 1 HapMap HapMap G 0.847 A 0.153 G/A MKK rs7851246 9 6352365 0.014 0.61 HapMap HapMap G 0.78 A 0.22 G/A LWK rs7851246 9 6352365 0.03 0.614 HapMap HapMap G 0.761 A 0.239 G/A MEX rs7851246 9 6352365 0.009 1 HapMap HapMap G 0.86 A 0.14 G/A CEU rs7851246 9 6352365 0.052 1 HapMap HapMap G 0.721 A 0.279 G/A CHD rs7852365 9 6058910 0.001 1 HapMap HapMap C 0.994 T 0.006 C/T CHB rs7852365 9 6058910 0.002 1 HapMap HapMap C 0.982 T 0.018 C/T JPT rs7852365 9 6058910 0.001 1 HapMap HapMap C 0.988 T 0.012 C/T YRI rs7855264 9 6291923 0.03 1 HapMap HapMap A 0.009 G 0.991 A/G LWK rs7855264 9 6291923 0.138 1 HapMap HapMap A 0.033 G 0.967 A/G GIH rs7859139 9 6296294 0.001 1 HapMap HapMap G 0.017 A 0.983 G/A MEX rs7859139 9 6296294 0.001 1 HapMap HapMap G 0.03 A 0.97 G/A CHD rs7859139 9 6296294 0.001 1 HapMap HapMap G 0.006 A 0.994 G/A ASW rs7859139 9 6296294 0.046 1 HapMap HapMap G 0.17 A 0.83 G/A MKK rs7859139 9 6296294 0.018 1 HapMap HapMap G 0.115 A 0.885 G/A MKK rs7861831 9 6254463 0.033 1 HapMap HapMap C 0.804 T 0.196 C/T MEX rs7861831 9 6254463 0.003 1 HapMap HapMap C 0.96 T 0.04 C/T CHB rs7865727 9 6080276 0.127 0.601 HapMap HapMap T 0.976 C 0.024 T/C ASW rs7865727 9 6080276 0.004 1 HapMap HapMap T 0.972 C 0.028 T/C MKK rs7865727 9 6080276 0.008 1 HapMap HapMap T 0.944 C 0.056 T/C MEX rs7865727 9 6080276 0.001 1 HapMap HapMap T 0.98 C 0.02 T/C JPT rs7865727 9 6080276 0.001 1 HapMap HapMap T 0.994 C 0.006 T/C CEU rs8172 9 6247898 0.013 1 HapMap HapMap A 0.08 G 0.92 A/G GIH rs8172 9 6247898 0.001 1 HapMap HapMap A 0.017 G 0.983 A/G MEX rs8172 9 6247898 0.005 1 HapMap HapMap A 0.09 G 0.91 A/G MKK rs8172 9 6247898 0.051 0.753 HapMap HapMap A 0.399 G 0.601 A/G JPT rs8172 9 6247898 0.001 1 HapMap HapMap A 0.006 G 0.994 A/G ASW rs8172 9 6247898 0.158 0.705 HapMap HapMap A 0.509 G 0.491 A/G CEU rs821164 9 6080989 0.012 1 HapMap HapMap C 0.121 G 0.879 C/G GIH rs821164 9 6080989 0.015 1 HapMap HapMap C 0.241 G 0.759 C/G MEX rs821164 9 6080989 0.009 1 HapMap HapMap C 0.14 G 0.86 C/G CHB rs821164 9 6080989 0.002 1 HapMap HapMap C 0.03 G 0.97 C/G CEU rs899381 9 6024076 0.001 1 HapMap HapMap T 0.991 C 0.009 T/C GIH rs899381 9 6024076 0.013 0.898 HapMap HapMap T 0.75 C 0.25 T/C MEX rs899381 9 6024076 0.003 1 HapMap HapMap T 0.95 C 0.05 T/C MKK rs928413 9 6203387 0.126 0.808 HapMap HapMap G 0.413 A 0.587 G/A YRI rs928413 9 6203387 0.206 1 HapMap HapMap G 0.588 A 0.412 G/A JPT rs928413 9 6203387 0.79 1 HapMap HapMap G 0.047 A 0.953 G/A ASW rs928413 9 6203387 0.139 0.799 HapMap HapMap G 0.538 A 0.462 G/A CEU rs928413 9 6203387 0.208 1 HapMap HapMap G 0.288 A 0.712 G/A CHB rs928413 9 6203387 0.236 0.705 HapMap HapMap G 0.048 A 0.952 G/A CHD rs928413 9 6203387 0.587 0.847 HapMap HapMap G 0.088 A 0.912 G/A GIH rs928413 9 6203387 0.098 0.79 HapMap HapMap G 0.233 A 0.767 G/A JPT rs928414 9 6226350 0.052 1 HapMap HapMap G 0.529 A 0.471 G/A CEU rs928414 9 6226350 0.208 1 HapMap HapMap G 0.35 A 0.65 G/A GIH rs928414 9 6226350 0.085 1 HapMap HapMap G 0.358 A 0.642 G/A GIH rs9408638 9 6086931 0.016 1 HapMap HapMap A 0.25 G 0.75 A/G CEU rs9408638 9 6086931 0.013 1 HapMap HapMap A 0.124 G 0.876 A/G CHB rs9408638 9 6086931 0.002 1 HapMap HapMap A 0.03 G 0.97 A/G MEX rs9408638 9 6086931 0.009 1 HapMap HapMap A 0.13 G 0.87 A/G MKK rs9408638 9 6086931 0.03 1 HapMap HapMap A 0.18 G 0.82 A/G CEU rs992969 9 6199697 0.208 1 HapMap HapMap A 0.283 G 0.717 A/G JPT rs992969 9 6199697 0.585 1 HapMap HapMap A 0.029 G 0.971 A/G LWK rs992969 9 6199697 0.395 0.78 HapMap HapMap A 0.278 G 0.722 A/G MKK rs992969 9 6199697 0.321 0.761 HapMap HapMap A 0.196 G 0.804 A/G GIH rs992969 9 6199697 0.167 1 HapMap HapMap A 0.222 G 0.778 A/G ASW rs992969 9 6199697 0.259 0.745 HapMap HapMap A 0.33 G 0.67 A/G CHB rs992969 9 6199697 0.232 1 HapMap HapMap A 0.036 G 0.964 A/G CHD rs992969 9 6199697 0.417 1 HapMap HapMap A 0.047 G 0.953 A/G YRI rs992969 9 6199697 0.315 0.792 HapMap HapMap A 0.363 G 0.637 A/G CEU rs993951 9 6294401 0.128 0.817 HapMap HapMap A 0.589 G 0.411 A/G GIH rs993951 9 6294401 0.07 1 HapMap HapMap A 0.597 G 0.403 A/G CHB rs996029 9 6212302 0.115 1 HapMap HapMap T 0.006 G 0.994 T/G CHD rs996029 9 6212302 0.001 1 HapMap HapMap T 0.006 G 0.994 T/G MKK rs996029 9 6212302 0.007 1 HapMap HapMap T 0.049 G 0.951 T/G MKK rs16924159 9 6219417 0.033 0.77 HapMap HapMap G 0.712 A 0.288 G/A JPT rs16924159 9 6219417 0.015 1 HapMap HapMap G 0.783 A 0.217 G/A GIH rs17496153 9 6060037 0.002 1 HapMap HapMap G 0.96 C 0.04 G/C CHD rs17496153 9 6060037 0.001 1 HapMap HapMap G 0.994 C 0.006 G/C ASW rs17496153 9 6060037 0.004 1 HapMap HapMap G 0.971 C 0.029 G/C CEU rs17496153 9 6060037 0.01 0.996 HapMap HapMap G 0.867 C 0.133 G/C JPT rs2079 9 6156653 0.008 1 HapMap HapMap G 0.901 A 0.099 G/A CHB rs2079 9 6156653 0.02 1 HapMap HapMap G 0.821 A 0.179 G/A CEU rs2079 9 6156653 0.073 1 HapMap HapMap G 0.633 A 0.367 G/A GIH rs2079 9 6156653 0.021 1 HapMap HapMap G 0.699 A 0.301 G/A CHD rs2079 9 6156653 0.032 1 HapMap HapMap G 0.788 A 0.212 G/A ASW rs2079 9 6156653 0.11 1 HapMap HapMap G 0.731 A 0.269 G/A MKK rs2079 9 6156653 0.04 1 HapMap HapMap G 0.773 A 0.227 G/A MEX rs2079 9 6156653 0.021 1 HapMap HapMap G 0.75 A 0.25 G/A GIH rs12339713 9 5968437 0.004 1 HapMap HapMap C 0.92 T 0.08 C/T LWK rs12339713 9 5968437 0.046 1 HapMap HapMap C 0.844 T 0.156 C/T LWK rs4742172 9 6266733 0.124 0.816 HapMap HapMap C 0.045 T 0.955 C/T GIH rs4742172 9 6266733 0.001 1 HapMap HapMap C 0.017 T 0.983 C/T ASW rs4742172 9 6266733 0.058 1 HapMap HapMap C 0.132 T 0.868 C/T MKK rs4742172 9 6266733 0.003 1 HapMap HapMap C 0.025 T 0.975 C/T MEX rs4742172 9 6266733 0.001 1 HapMap HapMap C 0.02 T 0.98 C/T MKK rs7863536 9 6154771 0.529 0.752 HapMap HapMap C 0.877 A 0.123 C/A JPT rs7863536 9 6154771 0.585 1 HapMap HapMap C 0.948 A 0.052 C/A GIH rs7863536 9 6154771 1 1 HapMap HapMap C 0.955 A 0.045 C/A YRI rs7863536 9 6154771 0.378 0.899 HapMap HapMap C 0.891 A 0.109 C/A CHD rs7863536 9 6154771 0.43 0.753 HapMap HapMap C 0.918 A 0.082 C/A ASW rs7863536 9 6154771 0.508 1 HapMap HapMap C 0.865 A 0.135 C/A ASW rs2169285 9 6270786 0.125 0.732 HapMap HapMap A 0.42 G 0.58 A/G GIH rs2169285 9 6270786 0.001 1 HapMap HapMap A 0.03 G 0.97 A/G JPT rs7044468 9 6120398 0.005 1 HapMap 1000GP A NA G NA A/G CHB rs7044468 9 6120398 0.007 0.794 HapMap 1000GP A NA G NA A/G JPT rs10758750 9 6230513 0.048 1 HapMap 1000GP C 0.5 G 0.5 C/G JPT rs10815383 9 6230670 0.048 1 HapMap 1000GP C 0.5 G 0.5 C/G JPT rs16924171 9 6233279 0.05 1 HapMap 1000GP A 0.5 T 0.5 A/T JPT rs7019575 9 6243935 0.047 1 HapMap 1000GP G 0.5 C 0.5 G/C JPT rs7034720 9 6234546 0.051 1 HapMap 1000GP C 0.51 A 0.49 C/A JPT rs1375 9 6235753 0.052 1 HapMap 1000GP G 0.51 T 0.49 G/T JPT rs4237164 9 6236501 0.052 1 HapMap 1000GP T 0.51 G 0.49 T/G JPT rs10975509 9 6237263 0.053 1 HapMap 1000GP G 0.51 A 0.49 G/A JPT rs1929992 9 6251588 0.047 1 HapMap 1000GP T 0.51 C 0.49 T/C JPT rs10435816 9 6225535 0.055 1 HapMap 1000GP A 0.52 G 0.48 A/G JPT rs10975497 9 6226592 0.062 1 HapMap 1000GP C 0.52 T 0.48 C/T JPT rs10975498 9 6226688 0.052 1 HapMap 1000GP T 0.52 C 0.48 T/C JPT rs10815397 9 6265256 0.051 1 HapMap 1000GP C 0.52 G 0.48 C/G JPT rs1113573 9 6253301 0.02 0.666 HapMap 1000GP T 0.54 C 0.46 T/C JPT rs7044343 9 6254208 0.038 1 HapMap 1000GP C 0.54 T 0.46 C/T JPT rs7871381 9 6254900 0.047 1 HapMap 1000GP G 0.54 A 0.46 G/A CHB rs10758733 9 5992100 0.051 0.69 HapMap 1000GP C 0.55 T 0.45 C/T CHB rs1475614 9 5992594 0.051 0.69 HapMap 1000GP G 0.55 C 0.45 G/C CHB rs4742145 9 5995278 0.068 0.689 HapMap 1000GP G 0.55 A 0.45 G/A JPT rs1412421 9 6255010 0.058 1 HapMap 1000GP A 0.55 C 0.45 A/C CHB rs10975386 9 5982246 0.05 0.659 HapMap 1000GP T 0.56 C 0.44 T/C JPT rs10975555 9 6360299 0.049 1 HapMap 1000GP C 0.6 G 0.4 C/G CHB rs10975555 9 6360299 0.055 1 HapMap 1000GP C 0.6 G 0.4 C/G CHB rs340910 9 6128620 0.063 0.65 HapMap 1000GP A 0.68 G 0.32 A/G CHB rs407153 9 6133014 0.059 0.634 HapMap 1000GP C 0.68 T 0.32 C/T CHB rs4389996 9 5991399 0.092 0.729 HapMap 1000GP C 0.69 T 0.31 C/T CHB rs182908 9 6098381 0.063 0.65 HapMap 1000GP A 0.69 C 0.31 A/C CHB rs436300 9 6112044 0.063 0.65 HapMap 1000GP G 0.69 C 0.31 G/C CHB rs444826 9 6114483 0.063 0.65 HapMap 1000GP G 0.69 C 0.31 G/C CHB rs340916 9 6126372 0.07 0.668 HapMap 1000GP T 0.69 C 0.31 T/C CHB rs16924328 9 6324744 0.037 1 HapMap 1000GP T 0.69 C 0.31 T/C CHB rs10975553 9 6352819 0.033 1 HapMap 1000GP T 0.69 C 0.31 T/C CHB rs7022186 9 6359144 0.033 1 HapMap 1000GP T 0.69 C 0.31 T/C CHB rs4742181 9 6363694 0.031 1 HapMap 1000GP A 0.7 G 0.3 A/G CHB rs719725 9 6365683 0.031 1 HapMap 1000GP A 0.7 C 0.3 A/C CHB rs2291055 9 5988333 0.116 0.758 HapMap 1000GP C 0.71 T 0.29 C/T CHB rs6477024 9 5990450 0.122 0.761 HapMap 1000GP C 0.71 T 0.29 C/T CHB rs7851749 9 5993652 0.116 0.758 HapMap 1000GP T 0.71 A 0.29 T/A CHB rs7875450 9 5996739 0.116 0.758 HapMap 1000GP C 0.71 T 0.29 C/T CHB rs4740834 9 5979717 0.116 0.758 HapMap 1000GP C 0.72 T 0.28 C/T CHB rs4742142 9 5981316 0.116 0.758 HapMap 1000GP C 0.72 T 0.28 C/T CHB rs4742143 9 5981647 0.116 0.758 HapMap 1000GP T 0.72 A 0.28 T/A CHB rs10815330 9 5983481 0.147 0.776 HapMap 1000GP G 0.72 C 0.28 G/C JPT rs7044750 9 5983655 0.008 1 HapMap 1000GP G 0.72 A 0.28 G/A CHB rs2381360 9 5990250 0.116 0.758 HapMap 1000GP T 0.72 G 0.28 T/G CHB rs10733523 9 5992256 0.116 0.758 HapMap 1000GP C 0.72 T 0.28 C/T CHB rs1331379 9 6003377 0.116 0.758 HapMap 1000GP C 0.72 T 0.28 C/T CHB rs186913 9 6008826 0.125 0.766 HapMap 1000GP T 0.72 C 0.28 T/C CHB rs7875812 9 6364533 0.033 1 HapMap 1000GP A 0.72 T 0.28 A/T JPT rs343493 9 6071061 0.011 0.971 HapMap 1000GP A 0.73 G 0.27 A/G JPT rs340920 9 6090484 0.01 1 HapMap 1000GP T 0.75 G 0.25 T/G JPT rs1116795 9 6155226 0.183 0.728 HapMap 1000GP G 0.77 T 0.23 G/T CHB rs1116795 9 6155226 0.163 0.783 HapMap 1000GP G 0.77 T 0.23 G/T JPT rs2225537 9 6160578 0.163 0.718 HapMap 1000GP C 0.77 T 0.23 C/T JPT rs10491835 9 6325345 0.004 0.615 HapMap 1000GP G 0.8 A 0.2 G/A JPT rs7872052 9 6026757 0.007 0.753 HapMap 1000GP T 0.82 C 0.18 T/C CHB rs7872052 9 6026757 0.01 0.699 HapMap 1000GP T 0.82 C 0.18 T/C CHB rs343469 9 6046486 0.136 0.613 HapMap 1000GP A 0.84 G 0.16 A/G CHB rs340889 9 6100476 0.025 1 HapMap 1000GP G 0.84 C 0.16 G/C JPT rs340889 9 6100476 0.008 1 HapMap 1000GP G 0.84 C 0.16 G/C CHB rs13299104 9 6101432 0.201 0.796 HapMap 1000GP C 0.84 T 0.16 C/T CHB rs439190 9 6114076 0.02 1 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs439190 9 6114076 0.007 1 HapMap 1000GP C 0.84 T 0.16 C/T CHB rs391813 9 6114094 0.004 1 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs372482 9 6119872 0.007 1 HapMap 1000GP G 0.84 A 0.16 G/A CHB rs372482 9 6119872 0.02 1 HapMap 1000GP G 0.84 A 0.16 G/A CHB rs442246 9 6121504 0.022 1 HapMap 1000GP G 0.84 T 0.16 G/T JPT rs442246 9 6121504 0.007 1 HapMap 1000GP G 0.84 T 0.16 G/T CHB rs13289987 9 6121900 0.218 0.803 HapMap 1000GP T 0.84 A 0.16 T/A CHB rs381702 9 6122331 0.024 1 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs381702 9 6122331 0.007 1 HapMap 1000GP C 0.84 T 0.16 C/T CHB rs693838 9 6122556 0.022 1 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs693838 9 6122556 0.007 1 HapMap 1000GP C 0.84 T 0.16 C/T CHB rs13293742 9 6129017 0.201 0.796 HapMap 1000GP T 0.84 C 0.16 T/C CHB rs10739086 9 6130822 0.022 1 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs10739086 9 6130822 0.006 1 HapMap 1000GP C 0.84 T 0.16 C/T JPT rs10758743 9 6066175 0.007 1 HapMap 1000GP T 0.85 C 0.15 T/C CHB rs694965 9 6117329 0.02 1 HapMap 1000GP C 0.85 T 0.15 C/T JPT rs694965 9 6117329 0.007 1 HapMap 1000GP C 0.85 T 0.15 C/T CHB rs381486 9 6118911 0.02 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs381486 9 6118911 0.007 1 HapMap 1000GP G 0.85 A 0.15 G/A CHB rs340909 9 6128646 0.02 1 HapMap 1000GP G 0.85 A 0.15 G/A JPT rs340909 9 6128646 0.007 1 HapMap 1000GP G 0.85 A 0.15 G/A CHB rs16924009 9 6129374 0.218 0.803 HapMap 1000GP A 0.85 T 0.15 A/T JPT rs489464 9 6132664 0.007 1 HapMap 1000GP A 0.85 T 0.15 A/T CHB rs489464 9 6132664 0.019 1 HapMap 1000GP A 0.85 T 0.15 A/T CHB rs386412 9 6132904 0.02 1 HapMap 1000GP T 0.85 A 0.15 T/A JPT rs386412 9 6132904 0.007 1 HapMap 1000GP T 0.85 A 0.15 T/A CHB rs369756 9 6146441 0.019 1 HapMap 1000GP G 0.85 T 0.15 G/T JPT rs369756 9 6146441 0.004 1 HapMap 1000GP G 0.85 T 0.15 G/T JPT rs4579584 9 6166919 0.004 1 HapMap 1000GP T 0.85 C 0.15 T/C CHB rs4579584 9 6166919 0.016 1 HapMap 1000GP T 0.85 C 0.15 T/C CHB rs10758742 9 6064670 0.008 0.636 HapMap 1000GP C 0.86 G 0.14 C/G JPT rs10758742 9 6064670 0.006 1 HapMap 1000GP C 0.86 G 0.14 C/G CHB rs4740837 9 6089527 0.017 1 HapMap 1000GP C 0.87 T 0.13 C/T JPT rs4740837 9 6089527 0.007 1 HapMap 1000GP C 0.87 T 0.13 C/T CHB rs10975436 9 6108729 0.017 1 HapMap 1000GP T 0.87 C 0.13 T/C JPT rs10975436 9 6108729 0.007 1 HapMap 1000GP T 0.87 C 0.13 T/C CHB rs7024136 9 6110470 0.017 1 HapMap 1000GP A 0.87 C 0.13 A/C JPT rs7024136 9 6110470 0.006 1 HapMap 1000GP A 0.87 C 0.13 A/C JPT rs7869888 9 6111007 0.007 1 HapMap 1000GP C 0.87 T 0.13 C/T CHB rs7869888 9 6111007 0.017 1 HapMap 1000GP C 0.87 T 0.13 C/T CHB rs7869064 9 6111078 0.002 1 HapMap 1000GP G 0.87 T 0.13 G/T CHB rs7043663 9 6111603 0.017 1 HapMap 1000GP C 0.87 T 0.13 C/T JPT rs7043663 9 6111603 0.008 1 HapMap 1000GP C 0.87 T 0.13 C/T JPT rs7048296 9 6120702 0.007 1 HapMap 1000GP T 0.87 C 0.13 T/C CHB rs7048296 9 6120702 0.018 1 HapMap 1000GP T 0.87 C 0.13 T/C JPT rs10975446 9 6123309 0.005 1 HapMap 1000GP T 0.87 C 0.13 T/C CHB rs10975446 9 6123309 0.018 1 HapMap 1000GP T 0.87 C 0.13 T/C JPT rs6477038 9 6127921 0.007 1 HapMap 1000GP A 0.87 C 0.13 A/C CHB rs6477038 9 6127921 0.017 1 HapMap 1000GP A 0.87 C 0.13 A/C CHB rs4742158 9 6128137 0.017 1 HapMap 1000GP A 0.87 C 0.13 A/C JPT rs4742158 9 6128137 0.007 1 HapMap 1000GP A 0.87 C 0.13 A/C CHB rs13296527 9 6127082 0.297 0.685 HapMap 1000GP G 0.89 T 0.11 G/T CHB rs13290080 9 6117291 0.265 0.678 HapMap 1000GP G 0.9 A 0.1 G/A JPT rs10975465 9 6155014 0.79 1 HapMap 1000GP G 0.92 A 0.08 G/A CHB rs10975465 9 6155014 0.463 0.83 HapMap 1000GP G 0.92 A 0.08 G/A JPT rs10815363 9 6174316 0.822 1 HapMap 1000GP T 0.92 C 0.08 T/C CHB rs10815363 9 6174316 0.648 1 HapMap 1000GP T 0.92 C 0.08 T/C JPT rs1012715 9 6151320 0.585 1 HapMap 1000GP C 0.93 A 0.07 C/A JPT rs12352464 9 6157329 0.487 1 HapMap 1000GP C 0.93 T 0.07 C/T JPT rs6477048 9 6161253 0.585 1 HapMap 1000GP C 0.93 T 0.07 C/T CHB rs4742166 9 6188124 0.273 0.611 HapMap 1000GP G 0.93 C 0.07 G/C JPT rs4742166 9 6188124 0.499 0.779 HapMap 1000GP G 0.93 C 0.07 G/C CHB rs1412425 9 6188740 0.346 0.761 HapMap 1000GP A 0.93 C 0.07 A/C JPT rs1412425 9 6188740 0.61 0.781 HapMap 1000GP A 0.93 C 0.07 A/C JPT rs2095044 9 6192796 0.499 0.779 HapMap 1000GP T 0.93 C 0.07 T/C CHB rs2095044 9 6192796 0.273 0.611 HapMap 1000GP T 0.93 C 0.07 T/C CHB rs10815370 9 6194831 0.273 0.611 HapMap 1000GP C 0.93 A 0.07 C/A JPT rs10815370 9 6194831 0.499 0.779 HapMap 1000GP C 0.93 A 0.07 C/A JPT rs4742167 9 6195285 0.499 0.779 HapMap 1000GP C 0.93 T 0.07 C/T CHB rs4742167 9 6195285 0.273 0.611 HapMap 1000GP C 0.93 T 0.07 C/T JPT rs1929996 9 6187636 0.499 0.779 HapMap 1000GP C 0.94 G 0.06 C/G CHB rs1929996 9 6187636 0.354 0.767 HapMap 1000GP C 0.94 G 0.06 C/G CHB rs7848215 9 6213468 0.236 0.705 HapMap 1000GP C 0.94 T 0.06 C/T JPT rs7848215 9 6213468 0.616 0.785 HapMap 1000GP C 0.94 T 0.06 C/T JPT rs10815362 9 6173798 0.79 1 HapMap 1000GP T 0.95 C 0.05 T/C CHB rs10815362 9 6173798 0.475 1 HapMap 1000GP T 0.95 C 0.05 T/C CHB rs2150970 9 6201364 0.354 0.767 HapMap 1000GP G 0.95 A 0.05 G/A JPT rs2150970 9 6201364 0.79 1 HapMap 1000GP G 0.95 A 0.05 G/A JPT rs12683048 9 6160944 0.004 1 HapMap 1000GP T 0.96 C 0.04 T/C CHB rs12683048 9 6160944 0.005 1 HapMap 1000GP T 0.96 C 0.04 T/C JPT rs2381416 9 6193455 0.585 1 HapMap 1000GP C 0.96 A 0.04 C/A CHB rs2381416 9 6193455 0.127 0.601 HapMap 1000GP C 0.96 A 0.04 C/A CHB rs12352918 9 5992351 0.004 1 HapMap 1000GP G 0.97 C 0.03 G/C CHB rs12341021 9 6009656 0.004 1 HapMap 1000GP C 0.97 G 0.03 C/G CHB rs10124484 9 6046505 0.004 1 HapMap 1000GP T 0.97 G 0.03 T/G CHB rs12351447 9 6046950 0.002 1 HapMap 1000GP T 0.97 G 0.03 T/G CHB rs343490 9 6064575 0.004 1 HapMap 1000GP A 0.97 G 0.03 A/G CHB rs343496 9 6068077 0.004 1 HapMap 1000GP A 0.97 T 0.03 A/T CHB rs343476 9 6072597 0.004 1 HapMap 1000GP T 0.97 C 0.03 T/C CHB rs343475 9 6073013 0.004 1 HapMap 1000GP C 0.97 G 0.03 C/G CHB rs189348 9 6073194 0.004 1 HapMap 1000GP T 0.97 C 0.03 T/C CHB rs378952 9 6078146 0.004 1 HapMap 1000GP C 0.97 T 0.03 C/T CHB rs454664 9 6078763 0.004 1 HapMap 1000GP A 0.97 G 0.03 A/G CHB rs401834 9 6078991 0.004 1 HapMap 1000GP T 0.97 C 0.03 T/C CHB rs340925 9 6088398 0.004 1 HapMap 1000GP T 0.97 G 0.03 T/G CHB rs340922 9 6088815 0.004 1 HapMap 1000GP A 0.97 C 0.03 A/C JPT rs10758748 9 6187862 0.585 1 HapMap 1000GP T 0.97 C 0.03 T/C CHB rs10758748 9 6187862 0.232 1 HapMap 1000GP T 0.97 C 0.03 T/C CHB rs12339713 9 5978437 0.002 1 HapMap 1000GP C 0.98 T 0.02 C/T CHB rs11793956 9 5987402 0.001 1 HapMap 1000GP T 0.98 A 0.02 T/A CHB rs7859471 9 6023626 0.004 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs340919 9 6090704 0.002 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs340918 9 6091048 0.002 1 HapMap 1000GP A 0.98 C 0.02 A/C CHB rs695013 9 6091565 0.002 1 HapMap 1000GP C 0.98 T 0.02 C/T CHB rs531759 9 6091996 0.001 1 HapMap 1000GP C 0.98 T 0.02 C/T CHB rs639247 9 6092089 0.002 1 HapMap 1000GP T 0.98 G 0.02 T/G CHB rs420445 9 6092154 0.001 1 HapMap 1000GP G 0.98 A 0.02 G/A CHB rs503384 9 6092804 0.004 1 HapMap 1000GP T 0.98 A 0.02 T/A JPT rs503384 9 6092804 0.001 1 HapMap 1000GP T 0.98 A 0.02 T/A CHB rs398561 9 6093132 0.002 1 HapMap 1000GP G 0.98 A 0.02 G/A CHB rs2150969 9 6093990 0.002 1 HapMap 1000GP C 0.98 G 0.02 C/G CHB rs437389 9 6099531 0.002 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs340906 9 6106086 0.002 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs340905 9 6106169 0.003 1 HapMap 1000GP A 0.98 C 0.02 A/C CHB rs340903 9 6107113 0.002 1 HapMap 1000GP C 0.98 G 0.02 C/G CHB rs340901 9 6108398 0.002 1 HapMap 1000GP G 0.98 C 0.02 G/C CHB rs974936 9 6111703 0.002 1 HapMap 1000GP A 0.98 C 0.02 A/C CHB rs441616 9 6113940 0.002 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs375560 9 6114744 0.002 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs1556470 9 6115538 0.003 1 HapMap 1000GP C 0.98 T 0.02 C/T CHB rs374672 9 6119038 0.002 1 HapMap 1000GP C 0.98 T 0.02 C/T CHB rs443175 9 6123556 0.003 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs1332291 9 6124101 0.002 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs1537285 9 6124584 0.002 1 HapMap 1000GP T 0.98 G 0.02 T/G CHB rs1332292 9 6124862 0.002 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs7039066 9 6125539 0.002 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs340915 9 6126588 0.002 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs340914 9 6126799 0.004 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs340913 9 6127330 0.002 1 HapMap 1000GP T 0.98 C 0.02 T/C CHB rs340912 9 6127851 0.002 1 HapMap 1000GP A 0.98 G 0.02 A/G CHB rs340907 9 6129637 0.002 1 HapMap 1000GP A 0.98 C 0.02 A/C CHB rs1888906 9 6131460 0.002 1 HapMap 1000GP G 0.98 A 0.02 G/A CHB rs4742159 9 6131612 0.002 1 HapMap 1000GP A 0.98 T 0.02 A/T CHB rs376690 9 6134926 0.002 1 HapMap 1000GP C 0.98 T 0.02 C/T JPT rs16924291 9 6293305 0.001 1 HapMap 1000GP C 0.98 A 0.02 C/A CHB rs986295 9 6069435 0.002 1 HapMap 1000GP G 0.99 A 0.01 G/A JPT rs986295 9 6069435 0.001 1 HapMap 1000GP G 0.99 A 0.01 G/A CHB rs10975453 9 6135000 0.003 1 HapMap 1000GP G 0.99 A 0.01 G/A CHB rs12684265 9 6327828 0.002 1 HapMap 1000GP G 0.99 A 0.01 G/A CHB rs12683480 9 6349964 0.002 1 HapMap 1000GP G 0.99 A 0.01 G/A JPT rs17496153 9 6070037 0.19 1 HapMap 1000GP G 0.9965 C 0.0035 G/C JPT rs10975442 9 6116768 0.001 1 HapMap 1000GP G 0.9983 A 0.0017 G/A CHB rs10975442 9 6116768 0.001 1 HapMap 1000GP G 0.9983 A 0.0017 G/A CHB rs12380605 9 6118873 0.001 1 HapMap 1000GP A 0.9983 T 0.0017 A/T CHB rs2094756 9 6135696 0.018 1 HapMap 1000GP A 1 C 0 A/C JPT rs2094756 9 6135696 0.007 1 HapMap 1000GP A 1 C 0 A/C CHB rs13302749 9 6171731 0.155 1 HapMap 1000GP T 1 C 0 T/C JPT rs7048482 9 6225659 0.001 1 HapMap 1000GP G 1 A 0 G/A JPT rs4742172 9 6276733 0 1 HapMap 1000GP C 1 T 0 C/T CEU rs7019575 9 6243935 0.113 1 HapMap 1000GP G 0.54 C 0.46 G/C CEU rs450108 9 6153485 0.089 1 HapMap 1000GP T 0.59 C 0.41 T/C CEU rs1116795 9 6155226 0.109 1 HapMap 1000GP G 0.59 T 0.41 G/T CEU rs2225537 9 6160578 0.105 1 HapMap 1000GP C 0.59 T 0.41 C/T CEU rs10975553 9 6352819 0.07 1 HapMap 1000GP T 0.6 C 0.4 T/C CEU rs7022186 9 6359144 0.076 1 HapMap 1000GP T 0.6 C 0.4 T/C CEU rs719725 9 6365683 0.076 1 HapMap 1000GP A 0.6 C 0.4 A/C CEU rs7875812 9 6364533 0.076 1 HapMap 1000GP A 0.63 T 0.37 A/T CEU rs731585 9 6342328 0.065 1 HapMap 1000GP G 0.65 A 0.35 G/A CEU rs343481 9 6024285 0.055 0.601 HapMap 1000GP C 0.66 G 0.34 C/G CEU rs1113573 9 6253301 0.019 0.612 HapMap 1000GP T 0.67 C 0.33 T/C CEU rs10758733 9 5992100 0.104 0.676 HapMap 1000GP C 0.68 T 0.32 C/T CEU rs16924159 9 6229417 0.038 1 HapMap 1000GP G 0.68 A 0.32 G/A CEU rs1375 9 6235753 0.208 1 HapMap 1000GP G 0.69 T 0.31 G/T CEU rs10975386 9 5982246 0.115 0.792 HapMap 1000GP T 0.7 C 0.3 T/C CEU rs1475614 9 5992594 0.104 0.676 HapMap 1000GP G 0.7 C 0.3 G/C CEU rs340911 9 6128446 0.025 1 HapMap 1000GP C 0.7 G 0.3 C/G CEU rs16924171 9 6233279 0.217 1 HapMap 1000GP A 0.7 T 0.3 A/T CEU rs7034720 9 6234546 0.194 1 HapMap 1000GP C 0.7 A 0.3 C/A CEU rs10758764 9 6326825 0.068 1 HapMap 1000GP T 0.7 A 0.3 T/A CEU rs10758741 9 6054645 0.08 0.649 HapMap 1000GP G 0.71 A 0.29 G/A CEU rs10758743 9 6066175 0.131 0.827 HapMap 1000GP T 0.71 C 0.29 T/C CEU rs4742179 9 6324376 0.067 1 HapMap 1000GP A 0.71 C 0.29 A/C CEU rs10758742 9 6064670 0.134 0.821 HapMap 1000GP C 0.72 G 0.28 C/G CEU rs1929996 9 6187636 0.149 1 HapMap 1000GP C 0.72 G 0.28 C/G CEU rs4742166 9 6188124 0.147 1 HapMap 1000GP G 0.72 C 0.28 G/C CEU rs1412425 9 6188740 0.153 1 HapMap 1000GP A 0.72 C 0.28 A/C CEU rs10815370 9 6194831 0.143 1 HapMap 1000GP C 0.72 A 0.28 C/A CEU rs4742167 9 6195285 0.143 1 HapMap 1000GP C 0.72 T 0.28 C/T CEU rs10975509 9 6237263 0.249 1 HapMap 1000GP G 0.72 A 0.28 G/A CEU rs10975498 9 6226688 0.306 1 HapMap 1000GP T 0.73 C 0.27 T/C CEU rs2006682 9 6227045 0.03 1 HapMap 1000GP G 0.73 C 0.27 G/C CEU rs10435816 9 6225535 0.287 1 HapMap 1000GP A 0.74 G 0.26 A/G CEU rs10975497 9 6226592 0.304 1 HapMap 1000GP C 0.74 T 0.26 C/T CEU rs10758750 9 6230513 0.289 1 HapMap 1000GP C 0.74 G 0.26 C/G CEU rs10815383 9 6230670 0.29 1 HapMap 1000GP C 0.74 G 0.26 C/G CEU rs16924428 9 6351111 0.05 1 HapMap 1000GP A 0.74 G 0.26 A/G CEU rs369756 9 6146441 0.033 1 HapMap 1000GP G 0.75 T 0.25 G/T CEU rs7848215 9 6213468 0.191 1 HapMap 1000GP C 0.75 T 0.25 C/T CEU rs2095044 9 6192796 0.208 1 HapMap 1000GP T 0.76 C 0.24 T/C CEU rs2381416 9 6193455 0.199 1 HapMap 1000GP C 0.76 A 0.24 C/A CEU rs10815397 9 6265256 0.206 0.7 HapMap 1000GP C 0.76 G 0.24 C/G CEU rs744567 9 6292602 0.041 1 HapMap 1000GP C 0.77 G 0.23 C/G CEU rs12339348 9 6233082 0.041 1 HapMap 1000GP A 0.78 T 0.22 A/T CEU rs17582919 9 6233376 0.041 1 HapMap 1000GP T 0.78 C 0.22 T/C CEU rs10975507 9 6236977 0.041 1 HapMap 1000GP A 0.78 T 0.22 A/T CEU rs343490 9 6064575 0.016 1 HapMap 1000GP A 0.81 G 0.19 A/G CEU rs343496 9 6068077 0.014 1 HapMap 1000GP A 0.81 T 0.19 A/T CEU rs343476 9 6072597 0.014 1 HapMap 1000GP T 0.81 C 0.19 T/C CEU rs343475 9 6073013 0.014 1 HapMap 1000GP C 0.81 G 0.19 C/G CEU rs189348 9 6073194 0.014 1 HapMap 1000GP T 0.81 C 0.19 T/C CEU rs378952 9 6078146 0.014 1 HapMap 1000GP C 0.81 T 0.19 C/T CEU rs1332291 9 6124101 0.014 1 HapMap 1000GP T 0.81 C 0.19 T/C CEU rs340918 9 6091048 0.013 1 HapMap 1000GP A 0.82 C 0.18 A/C CEU rs695013 9 6091565 0.013 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs531759 9 6091996 0.012 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs639247 9 6092089 0.013 1 HapMap 1000GP T 0.82 G 0.18 T/G CEU rs420445 9 6092154 0.013 1 HapMap 1000GP G 0.82 A 0.18 G/A CEU rs503507 9 6092757 0.013 1 HapMap 1000GP G 0.82 A 0.18 G/A CEU rs503384 9 6092804 0.014 1 HapMap 1000GP T 0.82 A 0.18 T/A CEU rs425489 9 6093790 0.014 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs2150969 9 6093990 0.014 1 HapMap 1000GP C 0.82 G 0.18 C/G CEU rs437389 9 6099531 0.013 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs340896 9 6102891 0.013 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs340906 9 6106086 0.012 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs340905 9 6106169 0.013 1 HapMap 1000GP A 0.82 C 0.18 A/C CEU rs340903 9 6107113 0.013 1 HapMap 1000GP C 0.82 G 0.18 C/G CEU rs340901 9 6108398 0.013 1 HapMap 1000GP G 0.82 C 0.18 G/C CEU rs974936 9 6111703 0.013 1 HapMap 1000GP A 0.82 C 0.18 A/C CEU rs441616 9 6113940 0.012 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs1556470 9 6115538 0.012 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs374672 9 6119038 0.013 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs443175 9 6123556 0.012 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs1537285 9 6124584 0.013 1 HapMap 1000GP T 0.82 G 0.18 T/G CEU rs1332292 9 6124862 0.013 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs7039066 9 6125539 0.011 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs340915 9 6126588 0.013 1 HapMap 1000GP A 0.82 G 0.18 A/G CEU rs340914 9 6126799 0.011 1 HapMap 1000GP A 0.82 G 0.18 A/G CEU rs340913 9 6127330 0.013 1 HapMap 1000GP T 0.82 C 0.18 T/C CEU rs340912 9 6127851 0.012 1 HapMap 1000GP A 0.82 G 0.18 A/G CEU rs340907 9 6129637 0.013 1 HapMap 1000GP A 0.82 C 0.18 A/C CEU rs10114457 9 6130940 0.014 1 HapMap 1000GP A 0.82 G 0.18 A/G CEU rs1888906 9 6131460 0.013 1 HapMap 1000GP G 0.82 A 0.18 G/A CEU rs4742159 9 6131612 0.013 1 HapMap 1000GP A 0.82 T 0.18 A/T CEU rs376690 9 6134926 0.013 1 HapMap 1000GP C 0.82 T 0.18 C/T CEU rs16924291 9 6293305 0.017 1 HapMap 1000GP C 0.84 A 0.16 C/A CEU rs16924328 9 6324744 0.011 1 HapMap 1000GP T 0.87 C 0.13 T/C CEU rs4579584 9 6166919 0.005 1 HapMap 1000GP T 0.88 C 0.12 T/C CEU rs10815362 9 6173798 0.659 1 HapMap 1000GP T 0.91 C 0.09 T/C CEU rs10758748 9 6187862 0.744 1 HapMap 1000GP T 0.91 C 0.09 T/C CEU rs2150970 9 6201364 0.683 1 HapMap 1000GP G 0.91 A 0.09 G/A CEU rs7859471 9 6023626 0.008 0.921 HapMap 1000GP T 0.93 C 0.07 T/C CEU rs13300552 9 6095799 0.011 1 HapMap 1000GP T 0.93 C 0.07 T/C CEU rs13298861 9 6150279 0.015 1 HapMap 1000GP A 0.93 T 0.07 A/T CEU rs10975464 9 6151609 0.014 1 HapMap 1000GP G 0.93 C 0.07 G/C CEU rs4742143 9 5981647 0.001 1 HapMap 1000GP T 0.94 A 0.06 T/A CEU rs1012715 9 6151320 0.815 1 HapMap 1000GP C 0.94 A 0.06 C/A CEU rs10975465 9 6155014 0.815 1 HapMap 1000GP G 0.94 A 0.06 G/A CEU rs12352464 9 6157329 0.8 1 HapMap 1000GP C 0.94 T 0.06 C/T CEU rs12352510 9 6157433 0.815 1 HapMap 1000GP C 0.94 T 0.06 C/T CEU rs6477048 9 6161253 0.815 1 HapMap 1000GP C 0.94 T 0.06 C/T CEU rs13302008 9 6162881 0.014 1 HapMap 1000GP T 0.94 C 0.06 T/C CEU rs7863536 9 6164771 0.815 1 HapMap 1000GP C 0.94 A 0.06 C/A CEU rs10118918 9 6170162 0.815 1 HapMap 1000GP T 0.94 G 0.06 T/G CEU rs1041538 9 6270359 0.013 1 HapMap 1000GP A 0.94 G 0.06 A/G CEU rs1041537 9 6271238 0.013 1 HapMap 1000GP A 0.94 G 0.06 A/G CEU rs10123059 9 6275456 0.013 1 HapMap 1000GP T 0.94 C 0.06 T/C CEU rs10758754 9 6277740 0.013 1 HapMap 1000GP G 0.94 A 0.06 G/A CEU rs2169284 9 6278071 0.012 1 HapMap 1000GP A 0.94 G 0.06 A/G CEU rs2169285 9 6280786 0.013 1 HapMap 1000GP A 0.94 G 0.06 A/G CEU rs10739091 9 6292919 0.008 0.884 HapMap 1000GP A 0.94 T 0.06 A/T CEU rs4389996 9 5991399 0.001 1 HapMap 1000GP C 0.95 T 0.05 C/T CEU rs10118537 9 6135155 0.003 1 HapMap 1000GP A 0.95 T 0.05 A/T CEU rs7048482 9 6225659 0.005 1 HapMap 1000GP G 0.95 A 0.05 G/A CEU rs13298301 9 6187242 0.008 0.921 HapMap 1000GP A 0.96 G 0.04 A/G CEU rs13284060 9 6202701 0.004 0.676 HapMap 1000GP A 0.96 C 0.04 A/C CEU rs11794419 9 6222110 0.006 1 HapMap 1000GP T 0.97 C 0.03 T/C CEU rs1854709 9 6251455 0.004 0.676 HapMap 1000GP T 0.97 C 0.03 T/C CEU rs7047769 9 6267718 0.004 1 HapMap 1000GP C 0.97 T 0.03 C/T CEU rs980850 9 6269458 0.004 0.676 HapMap 1000GP G 0.97 C 0.03 G/C CEU rs2381440 9 6373548 0.001 1 HapMap 1000GP G 0.97 A 0.03 G/A CEU rs4740834 9 5979717 0.001 1 HapMap 1000GP C 0.98 T 0.02 C/T CEU rs4742142 9 5981316 0.001 1 HapMap 1000GP C 0.98 T 0.02 C/T CEU rs10815330 9 5983481 0.001 1 HapMap 1000GP G 0.98 C 0.02 G/C CEU rs7044750 9 5983655 0.001 1 HapMap 1000GP G 0.98 A 0.02 G/A CEU rs2291055 9 5988333 0.001 1 HapMap 1000GP C 0.98 T 0.02 C/T CEU rs2381360 9 5990250 0.001 1 HapMap 1000GP T 0.98 G 0.02 T/G CEU rs6477024 9 5990450 0.001 1 HapMap 1000GP C 0.98 T 0.02 C/T CEU rs10733523 9 5992256 0.001 1 HapMap 1000GP C 0.98 T 0.02 C/T CEU rs12352918 9 5992351 0.001 1 HapMap 1000GP G 0.98 C 0.02 G/C CEU rs7851749 9 5993652 0.001 1 HapMap 1000GP T 0.98 A 0.02 T/A CEU rs7875450 9 5996739 0.001 1 HapMap 1000GP C 0.98 T 0.02 C/T CEU rs1331379 9 6003377 0.001 1 HapMap 1000GP C 0.98 T 0.02 C/T CEU rs186913 9 6008826 0.001 1 HapMap 1000GP T 0.98 C 0.02 T/C CEU rs7852538 9 6026472 0.002 1 HapMap 1000GP G 0.98 A 0.02 G/A CEU rs343480 9 6023030 0.001 1 HapMap 1000GP A 0.99 G 0.01 A/G CEU rs343482 9 6024347 0.001 1 HapMap 1000GP T 0.99 G 0.01 T/G CEU rs343469 9 6046486 0.001 1 HapMap 1000GP A 0.99 G 0.01 A/G CEU rs13290235 9 6052352 0.004 1 HapMap 1000GP G 0.99 A 0.01 G/A CEU rs7866793 9 6055039 0.001 1 HapMap 1000GP T 0.99 C 0.01 T/C CEU rs7857802 9 6075321 0.001 1 HapMap 1000GP G 0.99 A 0.01 G/A CEU rs10975442 9 6116768 0.002 1 HapMap 1000GP G 0.996 A 0.004 G/A CEU rs12336478 9 6247287 0.001 1 HapMap 1000GP G 1 A 0 G/A YRI rs1969732 9 6278604 0.015 1 HapMap 1000GP A NA G NA A/G YRI rs2381416 9 6193455 0.138 0.865 HapMap 1000GP C 0.61 A 0.39 C/A YRI rs343481 9 6024285 0.042 0.663 HapMap 1000GP C 0.64 G 0.36 C/G YRI rs2095044 9 6192796 0.052 0.625 HapMap 1000GP T 0.66 C 0.34 T/C YRI rs1412425 9 6188740 0.037 0.633 HapMap 1000GP A 0.72 C 0.28 A/C YRI rs2150970 9 6201364 0.542 1 HapMap 1000GP G 0.72 A 0.28 G/A YRI rs10815370 9 6194831 0.082 1 HapMap 1000GP C 0.73 A 0.27 C/A YRI rs10758748 9 6187862 0.567 0.886 HapMap 1000GP T 0.75 C 0.25 T/C YRI rs7047769 9 6267718 0.038 1 HapMap 1000GP C 0.76 T 0.24 C/T YRI rs2079 9 6166653 0.049 0.714 HapMap 1000GP G 0.78 A 0.22 G/A YRI rs10975424 9 6077716 0.056 0.787 HapMap 1000GP T 0.83 C 0.17 T/C YRI rs401834 9 6078991 0.137 0.604 HapMap 1000GP T 0.83 C 0.17 T/C YRI rs343476 9 6072597 0.157 0.63 HapMap 1000GP T 0.84 C 0.16 T/C YRI rs343475 9 6073013 0.137 0.604 HapMap 1000GP C 0.84 G 0.16 C/G YRI rs189348 9 6073194 0.137 0.604 HapMap 1000GP T 0.84 C 0.16 T/C YRI rs378952 9 6078146 0.157 0.63 HapMap 1000GP C 0.84 T 0.16 C/T YRI rs10815340 9 6005037 0.031 0.935 HapMap 1000GP T 0.85 G 0.15 T/G YRI rs343496 9 6068077 0.157 0.63 HapMap 1000GP A 0.85 T 0.15 A/T YRI rs6477038 9 6127921 0.02 0.62 HapMap 1000GP A 0.87 C 0.13 A/C YRI rs10118918 9 6170162 0.55 1 HapMap 1000GP T 0.87 G 0.13 T/G YRI rs2094756 9 6135696 0.012 1 HapMap 1000GP A 0.88 C 0.12 A/C YRI rs12352464 9 6157329 0.382 0.9 HapMap 1000GP C 0.88 T 0.12 C/T YRI rs1012715 9 6151320 0.402 0.902 HapMap 1000GP C 0.89 A 0.11 C/A YRI rs10975465 9 6155014 0.397 1 HapMap 1000GP G 0.89 A 0.11 G/A YRI rs12352510 9 6157433 0.396 1 HapMap 1000GP C 0.89 T 0.11 C/T YRI rs13302008 9 6162881 0.045 1 HapMap 1000GP T 0.9 C 0.1 T/C YRI rs1888910 9 6190650 0.024 1 HapMap 1000GP C 0.9 T 0.1 C/T YRI rs13298861 9 6150279 0.026 1 HapMap 1000GP A 0.92 T 0.08 A/T YRI rs10975464 9 6151609 0.028 1 HapMap 1000GP G 0.93 C 0.07 G/C YRI rs7854452 9 6132673 0.018 1 HapMap 1000GP G 0.94 A 0.06 G/A YRI rs7850282 9 6217232 0.03 1 HapMap 1000GP A 0.94 G 0.06 A/G YRI rs7042708 9 6023059 0.044 0.601 HapMap 1000GP C 0.95 G 0.05 C/G YRI rs1556471 9 6170677 0.007 1 HapMap 1000GP A 0.95 G 0.05 A/G YRI rs1332293 9 6172604 0.018 1 HapMap 1000GP G 0.95 A 0.05 G/A YRI rs1854709 9 6251455 0.029 1 HapMap 1000GP T 0.95 C 0.05 T/C YRI rs2000198 9 6268569 0.031 1 HapMap 1000GP T 0.95 C 0.05 T/C YRI rs980850 9 6269458 0.029 1 HapMap 1000GP G 0.95 C 0.05 G/C YRI rs980849 9 6269689 0.03 1 HapMap 1000GP T 0.95 C 0.05 T/C YRI rs10123132 9 6275720 0.03 1 HapMap 1000GP T 0.95 C 0.05 T/C YRI rs10758763 9 6326371 0.03 1 HapMap 1000GP T 0.95 C 0.05 T/C YRI rs7865566 9 5990717 0.009 1 HapMap 1000GP A 0.96 G 0.04 A/G YRI rs480246 9 6095728 0.05 0.642 HapMap 1000GP C 0.96 T 0.04 C/T YRI rs1888907 9 6131376 0.05 0.642 HapMap 1000GP A 0.96 G 0.04 A/G YRI rs4567097 9 6159523 0.018 1 HapMap 1000GP G 0.96 T 0.04 G/T YRI rs1322167 9 6282089 0.03 1 HapMap 1000GP A 0.96 T 0.04 A/T YRI rs7858373 9 6301948 0.03 1 HapMap 1000GP T 0.96 G 0.04 T/G YRI rs1407357 9 6302126 0.031 1 HapMap 1000GP C 0.96 G 0.04 C/G YRI rs1407358 9 6302297 0.03 1 HapMap 1000GP T 0.96 G 0.04 T/G YRI rs1923359 9 6310773 0.03 1 HapMap 1000GP C 0.96 T 0.04 C/T YRI rs1330379 9 6310933 0.03 1 HapMap 1000GP T 0.96 C 0.04 T/C YRI rs10491835 9 6325345 0.06 1 HapMap 1000GP G 0.96 A 0.04 G/A YRI rs7040374 9 6348594 0.03 1 HapMap 1000GP C 0.96 T 0.04 C/T YRI rs4742180 9 6352776 0.031 1 HapMap 1000GP C 0.96 T 0.04 C/T YRI rs10758768 9 6354290 0.03 1 HapMap 1000GP A 0.96 T 0.04 A/T YRI rs7350177 9 6357262 0.03 1 HapMap 1000GP C 0.96 T 0.04 C/T YRI rs6477071 9 6358849 0.03 1 HapMap 1000GP T 0.96 C 0.04 T/C YRI rs13302749 9 6171731 0.01 1 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs12000756 9 6188025 0.012 1 HapMap 1000GP A 0.97 C 0.03 A/C YRI rs1969733 9 6278591 0.015 1 HapMap 1000GP T 0.97 C 0.03 T/C YRI rs1535425 9 6278774 0.015 1 HapMap 1000GP C 0.97 T 0.03 C/T YRI rs7859105 9 6288641 0.015 1 HapMap 1000GP C 0.97 A 0.03 C/A YRI rs7042279 9 6324234 0.003 1 HapMap 1000GP G 0.97 A 0.03 G/A YRI rs1599369 9 6349335 0.015 1 HapMap 1000GP A 0.97 T 0.03 A/T YRI rs4740837 9 6089527 0.012 1 HapMap 1000GP C 0.98 T 0.02 C/T YRI rs13300552 9 6095799 0.036 1 HapMap 1000GP T 0.98 C 0.02 T/C YRI rs7048296 9 6120702 0.012 1 HapMap 1000GP T 0.98 C 0.02 T/C YRI rs7041151 9 6326934 0.015 1 HapMap 1000GP T 0.98 A 0.02 T/A YRI rs12339585 9 6272584 0.012 1 HapMap 1000GP C 0.99 T 0.01 C/T

Other Embodiments

Although the foregoing invention has been described in some detail by way of illustration and example for purposes of clarity of understanding, the descriptions and examples should not be construed as limiting the scope of the invention. The disclosures of all patent and scientific literature cited herein are expressly incorporated in their entirety by reference. 

1. A method of treating a patient suffering from an interleukin-33 (IL-33)-mediated disorder whose genotype has been determined to comprise a G allele at polymorphism rs4988956 (SEQ ID NO: 1) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1), the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist.
 2. A method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs4988956 (SEQ ID NO: 1) or at a polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a G allele at polymorphism rs4988956 (SEQ ID NO: 1) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1).
 3. (canceled)
 4. The method of claim 2, further comprising administering an IL-33 axis binding antagonist to the patient.
 5. The method of claim 2, further comprising determining the level of periostin in a sample derived from the patient. 6-7. (canceled)
 8. The method of claim 1, wherein the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1) has a D′ value greater than or equal to 0.6 to polymorphism rs4988956 (SEQ ID NO: 1).
 9. (canceled)
 10. The method of claim 1, wherein the polymorphism in linkage disequilibrium with polymorphism rs4988956 (SEQ ID NO: 1) is a polymorphism in Table
 3. 11-12. (canceled)
 13. A method of treating a patient suffering from an IL-33-mediated disorder whose genotype has been determined to comprise an A allele at polymorphism rs10204137 (SEQ ID NO: 2) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2), the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist.
 14. A method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs10204137 (SEQ ID NO: 2) or at a polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises an A allele at polymorphism rs10204137 (SEQ ID NO: 2) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2).
 15. (canceled)
 16. The method of claim 14, further comprising administering an IL-33 axis binding antagonist to the patient.
 17. The method of claim 13, further comprising determining the level of periostin in a sample derived from the patient. 18-19. (canceled)
 20. The method of claim 13, wherein the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2) has a D′ value greater than or equal to 0.6 to polymorphism rs10204137 (SEQ ID NO: 2).
 21. (canceled)
 22. The method of claim 13, wherein the polymorphism in linkage disequilibrium with polymorphism rs10204137 (SEQ ID NO: 2) is a polymorphism in Table
 3. 23-24. (canceled)
 25. A method of treating a patient suffering from an IL-33-mediated disorder whose genotype has been determined to comprise a C allele at polymorphism rs10192036 (SEQ ID NO: 3) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3), the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist.
 26. A method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs10192036 (SEQ ID NO: 3) or at a polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a C allele at polymorphism rs10192036 (SEQ ID NO: 3) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10192036 (SEQ ID NO: 3). 27-36. (canceled)
 37. A method of treating a patient suffering from an IL-33-mediated disorder whose genotype has been determined to comprise a C allele at polymorphism rs10192157 (SEQ ID NO: 4) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4), the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist.
 38. A method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs10192157 (SEQ ID NO: 4) or at a polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a C allele at polymorphism rs10192157 (SEQ ID NO: 4) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10192157 (SEQ ID NO: 4). 39-48. (canceled)
 49. A method of treating a patient suffering from an IL-33-mediated disorder whose genotype has been determined to comprise a T allele at polymorphism rs10206753 (SEQ ID NO: 5) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5), the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist.
 50. A method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs10206753 (SEQ ID NO: 5) or at a polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a T allele at polymorphism rs10206753 (SEQ ID NO: 5) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5).
 51. (canceled)
 52. The method of claim 50, further comprising administering an IL-33 axis binding antagonist to the patient.
 53. The method of claim 49, further comprising determining the level of periostin in a sample derived from the patient. 54-55. (canceled)
 56. The method of claim 49, wherein the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5) has a D′ value greater than or equal to 0.6 to polymorphism rs10206753 (SEQ ID NO: 5).
 57. (canceled)
 58. The method of claim 49, wherein the polymorphism in linkage disequilibrium with polymorphism rs10206753 (SEQ ID NO: 5) is a polymorphism in Table
 3. 59-60. (canceled)
 61. A method of treating a patient suffering from an IL-33-mediated disorder whose genotype has been determined to comprise a T allele at polymorphism rs4742165 (SEQ ID NO: 6) or an equivalent allele at a polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6), the method comprising administering to the patient a therapy comprising an IL-33 axis binding antagonist.
 62. A method of determining whether a patient is at increased risk of an IL-33-mediated disorder, the method comprising determining the genotype at polymorphism rs4742165 (SEQ ID NO: 6) or at a polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6) in a sample derived from the patient, wherein the patient is at increased risk of an IL-33-mediated disorder if the genotype of the patient comprises a T allele at polymorphism rs4742165 (SEQ ID NO: 6) or an equivalent allele at the polymorphism in linkage disequilibrium with polymorphism rs4742165 (SEQ ID NO: 6). 63-89. (canceled)
 90. A method of selecting a therapy for a patient having an IL-33-mediated disorder, the method comprising: (a) determining the level of periostin in a sample derived from the patient; (b) comparing the level of periostin in the sample derived from the patient to a reference level of periostin; and (c) selecting a therapy comprising an IL-33 axis binding antagonist if the level of periostin in the sample is at or below the reference level. 91-96. (canceled)
 97. A method for assessing a treatment response of a patient treated with an IL-33 axis binding antagonist, the method comprising: (a) determining the level of sST2 in a sample derived from the patient at a time point during or after administration of the IL-33 axis binding antagonist; and (b) maintaining, adjusting, or stopping the treatment of the patient based on a comparison of the level of sST2 in the sample derived from the patient with a reference level of sST2, wherein a change in the level of sST2 in the sample derived from the patient compared to the reference level is indicative of a response to treatment with the IL-33 axis binding antagonist. 98-112. (canceled)
 113. The method of claim 1, wherein the IL-33 axis binding antagonist is administered in combination with a tryptase-beta binding antagonist, a chemoattractant receptor-homologous molecule expressed on Th2 cells (CRTH2) binding antagonist, an interleukin-13 (IL-13) binding antagonist, an interleukin-17 (IL-17) binding antagonist, a JAK1 antagonist, and/or an interleukin-5 (IL-5) binding antagonist.
 114. The method of claim 1, wherein the IL-33 axis binding antagonist is an IL-33 binding antagonist, an ST2 binding antagonist, or an IL-1 RAcP binding antagonist.
 115. The method of claim 114, wherein: (a) the IL-33 binding antagonist is an anti-IL33 antibody or antigen-binding fragment thereof; (b) the ST2 binding antagonist is an ST2-Fc protein, an anti-ST2 antibody, or antigen-binding fragment thereof; or (c) the IL-1 RAcP binding antagonist is an anti-IL-1 RAcP antibody.
 116. The method of claim 1, wherein the IL-33-mediated disorder is selected from the group consisting of an inflammatory condition, an immune disorder, a fibrotic disorder, an eosinophilic disorder, an infection, pain, a central nervous system disorder, a solid tumor, and an ophthalmologic disorder. 117-154. (canceled) 